diff --git a/data/fetched/DOE.json b/data/fetched/DOE.json index e69de29b..f31e95ff 100644 --- a/data/fetched/DOE.json +++ b/data/fetched/DOE.json @@ -0,0 +1,31682 @@ +{ + "agency": "UNKNOWN", + "measurementType": { + "ifOther": "", + "method": "other" + }, + "releases": [ + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Teuchos is designed to provide portable, object-oriented tools for Trillnos developers and users. This includes templated wrappers to BLAS/LAPACK, a serial dense matrix class, a parameter list, XML parsing utilities, reference counted pointer (smart pointer) utilities, and more. These tools are designed to run on both serial and parallel computers.", + "laborHours": 0, + "languages": [], + "name": "Teuchos Utility Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Amesos is the Direct Sparse Solver Package in Trilinos. The goal of Amesos is to make AX=S as easy as it sounds, at least for direct methods. Amesos provides interfaces to a number of third party sparse direct solvers, including SuperLU, SuperLU MPI, DSCPACK, UMFPACK and KLU. Amesos provides a common object oriented interface to the best sparse direct solvers in the world. A sparse direct solver solves for x in Ax = b. where A is a matrix and x and b are vectors (or multi-vectors). A sparse direct solver flrst factors A into trinagular matrices L and U such that A = LU via gaussian elimination and then solves LU x = b. Switching amongst solvers in Amesos roquires a change to a single parameter. Yet, no solver needs to be linked it, unless it is used. All conversions between the matrices provided by the user and the format required by the underlying solver is performed by Amesos. As new sparse direct solvers are created, they will be incorporated into Amesos, allowing the user to simpty link with the new solver, change a single parameter in the calling sequence, and use the new solver. Amesos allows users to specify whether the matrix has changed. Amesos can be used anywhere that any sparse direct solver is needed.", + "laborHours": 0, + "languages": [], + "name": "Amesos Solver Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The MRSH project is a collection of the following programs: MRSH, MRCP, MRLOGIN, MRSHD, MRLOGIND. These programs are modifications of the programs RSH, RCP, RLOGIN, RSHD, and RLOGIND. They have been modified to provide authentication via munge, an intra-cluster authentication service. Henceforth, \"MRSH\" implies the collective set of programs MRSH, MRCP, MRLOGIN, MRSHD, and MRLOGIND. Similarly RSH will refer to its collective set of programs.", + "laborHours": 0, + "languages": [], + "name": "MRSH Version V2.0", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/chaos/mrsh", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Lustre Administrative Tools (LAT) is a set of programs and utilities designed to facilitate management of the Lustre File System by System Administrators.", + "laborHours": 0, + "languages": [], + "name": "Lustre Administrative Tool", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/cea-hpc/shine", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "WHATSUP determines which nodes in a cluster are up and which nodes are down.", + "laborHours": 0, + "languages": [], + "name": "WHATSUP Version1.3", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/chaos/whatsup", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Nux is an open-source Java XML toolset geared towards embed:,ed use in high-throughput XML messaging middleware such as large- scale Peer-to-Peer infrastructures, message queues, publish- subscribe and matchmaking systems for Blogs/newsfeeds, text chat, data acquisition and distribution systems, application level routers firewalls, classifiers, etc. It is not an XML database, and does not attempt to be one. Features include: archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Seamless W3C XQuery and XPath support for XOM. archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Full-text search (fuzzy similarity queries) for on-the-fly matchmaking in realtime streaming applications combining structured and unstructured queries. archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Efficient and flexible pools and factories for documents, XQueries, XSL Transforms, as well as document Builders that validate against various schema languages, including W3C XML Schemas, DTDs, RELAX NG, Schematron, etc. archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Optional serialization and deserialization of XOM XML documents to and from an efficient and compact custom binary XML data format (bnux format), without loss or change of any information.", + "laborHours": 0, + "languages": [], + "name": "Nux, V.1.0", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/er1c/nux/blob/master/doc/license.html", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/er1c/nux/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "An MPI-based test for benchmarking parallel I/O beowulf-style clusters.", + "laborHours": 0, + "languages": [], + "name": "MIB, the MPI I/O Benchmark", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/mib", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Galeri package defines a collection of serial and distributed linear algebra objects to be used for software verification and validation. Galeri is used in several of the examples of the Amesos, IFPACK and ML packages, and in the Trilinos tutorial, Didasko. Galeri can be used for the generation of linear system with known propeties and data distribution for convergence analysis of interative solvers of Krylov type and domain decomposition and multigrid preconditioners.", + "laborHours": 0, + "languages": [], + "name": "Galeri Matrix Generation Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Moertel supplies capabilities for nonconforming mesh tying and contact formulations in 2 and 3 dimensions using Mortar methods. Motar methods are a type of Lagrange Multiplier constraints that can be used in contact formulations and in non-conforming or conforming mesh typing as well as in domain decomposition techniques. Suitable conditions at interfaces are formulated as weak continuity conditions in dual variables introducing Lagrange multiplers on the interface. By an appropriate choice of the function space of the Lagrange multipliers on an interface it is possible to locally condense Lagrange multipliers such that a sparse and definite system of equations can be formed which is equalivalent to the saddle point system resulting from the Lagrange multiplier formulation.", + "laborHours": 0, + "languages": [], + "name": "Moertel Fe Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "WebTrilinos is a scientific portal, a web-based environment to use several Trilinos packages through the web. If you are a teaching sparse linear algebra, you can use WebTrilinos to present code snippets and simple scripts, and let the students execute them from their browsers. If you want to test linear algebra solvers, you can use the MatrixPortal module, and you just have to select problems and options, then plot the results in nice graphs.", + "laborHours": 0, + "languages": [], + "name": "Trilinos Web Interface Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/WebTrilinos", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Stratimikos is a small package of C++ wrappers for linear solver and preconditioning functionality exposed through Thyra interfaces. This package makes is possible to aggregate all of the general linear solver capability from the packages Amesos, AztecOO, Belos, lfpack, ML and others into a simple to use, parameter-list driven, interface to linear solvers. This initial version of Stratimikos contains just one utility class for building linear solvrs and preconditioners out of Epetra-based linear operators.", + "laborHours": 0, + "languages": [], + "name": "Stratimikos Wrapper Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Aprepro is an algebraic preprocessor that reads a file containing both general text and algebraic, string, or conditional expressions. It interprets the expressions and outputs them to the output file along witht the general text. Aprepro contains several mathematical functions, string functions, and flow control constructs. In addition, functions are included that, with some additional files, implement a units conversion system and a material database lookup system.", + "laborHours": 0, + "languages": [], + "name": "Aprepro - Algebraic Preprocessor", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MRNet is a software tree-based overlay network developed at the University of Wisconsin, Madison that provides a scalable communication mechanism for parallel tools. MRNet, uses a tree topology of networked processes between a user tool and distributed tool daemons. This tree topology allows scalable multicast communication from the tool to the daemons. The internal nodes of the tree can be used to distribute computation and alalysis on data sent from the tool daemons to the tool. This release covers minor implementation to port this software to the BlueGene/L architecuture and for use with a new implementation of the Dynamic Probe Class Library.", + "laborHours": 0, + "languages": [], + "name": "Multicast Reduction Network Source Code", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dyninst/mrnet", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Tramonto is a code for performing molecular theory calculations using a matrix-based Newton's method approach for 1D, 2D, and 3D geometries. More specifically the code solves the integral equations of a particular class of liquid state theory namely density functional theories (DFT) of inhomogeneous fluids in order to predict the structure and thermodynamic properties of fluids near surfaces, in porous media, or near macromolecules. It can also be used to study self-assembling systems such as lamellae forming diblock copolymers or lipid bilayers. The types of fluids currently treated by the code include atomistic fluids (hard spheres, Lennard-Jones, ions, etc), freely-jointed polymers, and small molecules with bond constraints. The system of equations solved by this code are integral equations of finite range. They lead to sparse matrices for large physical systems, but rather dense matrices when the physical systems are small. The systems of equations are solved using a real space matrix based Newton's method. Standard freely available parallel iterative solvers many be used to solve the problem (see Aztecoo from Sandia's Trilinos project). Alternatively, specialized Schur complement based solvers developed for more efficient solution of these semi-dense matrices may be used.", + "laborHours": 0, + "languages": [], + "name": "Tramonto", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/symashayak/tramonto", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Aristos is a Trilinos package for nonlinear continuous optimization, based on full-space sequential quadratic programming (SQP) methods. Aristos is specifically designed for the solution of large-scale constrained optimization problems in which the linearized constraint equations require iterative (i.e. inexact) linear solver techniques. Aristos' unique feature is an efficient handling of inexactness in linear system solves. Aristos currently supports the solution of equality-constrained convex and nonconvex optimization problems. It has been used successfully in the area of PDE-constrained optimization, for the solution of nonlinear optimal control, optimal design, and inverse problems.", + "laborHours": 0, + "languages": [], + "name": "Aristos Optimization Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Sacado is an automatic differentiation package for C++ codes using operator overloading and C++ templating. Sacado provide forward, reverse, and Taylor polynomial automatic differentiation classes and utilities for incorporating these classes into C++ codes. Users can compute derivatives of computations arising in engineering and scientific applications, including nonlinear equation solving, time integration, sensitivity analysis, stability analysis, optimization and uncertainity quantification.", + "laborHours": 0, + "languages": [], + "name": "Automatic Differentiation Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "HPCCG is a simple PDE application and preconditioned conjugate gradient solver that solves a linear system on a beam-shaped domain. Although it does not address many performance issues present in real engineering applications, such as load imbalance and preconditioner scalability, it can serve as a first \"sanity test\" of new processor design choices, inter-connect network design choices and the scalability of a new computer system. Because it is self-contained, easy to compile and easily scaled to 100s or 1000s of porcessors, it can be an attractive study code for computer system designers.", + "laborHours": 0, + "languages": [], + "name": "HPCCG Solver Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Mantevo/HPCCG", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MRNet is a software tree-based overlay network developed at the University of Wisconsin, Madison that provides a scalable communication mechanism for parallel tools. MRNet uses a tree topology of networked processes between a user tool and distributed tool daemons. This tree topology allows scalable multicast communication from the tool to the daemons. The internal nodes of the tree can be used to distribute computation and analysis on data sent from the tool daemons to the tool. This release covers modifications that we have made to the Wisconsin implementation to port this software to the BlueGene/L architecture. It also covers some additional files that were created for this port.", + "laborHours": 0, + "languages": [], + "name": "BlueGene/L Specific Modification to MRNet: Multicast/Reduction Network", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dyninst/mrnet", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GraphLib is a support library used by other tools to create, manipulate, store, and export graphs. It provides a simple interface to specifS' arbitrary directed and undirected graphs by adding nodes and edges. Each node and edge can be associated with a set of attributes describing size, color, and shape. Once created, graphs can be manipulated using a set of graph analysis algorithms, including merge, prune, and path coloring operations. GraphLib also has the ability to export graphs into various open formats such as DOT and GML.", + "laborHours": 0, + "languages": [], + "name": "Graph Library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/graphlib", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The numa-maps program displays information about how memory for processes is laid out on a NUMA (Non-Uniform Memory Architecture) system running Linux.", + "laborHours": 0, + "languages": [], + "name": "numa-maps", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/grondo/numa-maps", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The package provides additional IB programs and scripts which are usefull in some way or another to the management of IB clusters.", + "laborHours": 0, + "languages": [], + "name": "Pragmatic-infiniband-utilities", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/weiny2/pragmatic-infiniband-utilities", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Mapvar is designed to transfer solution results from one finite element mesh to another. Mapvar draws heavily from the structure and coding of MERLIN II, but it employs a new finite element data base. Exodus II, and offers enhanced speed and new capabilities not aavailable in MERLIN II.", + "laborHours": 0, + "languages": [], + "name": "MAPVAR V1.9", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Parallel Heterogeneous Dynamic unstructured Mesh (phdMesh) data structure library and integration testing code that performs dynamic load balancing of the data structure and parallel geometric proximity search on a contrived test problem. 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Finally, modules within the library (\"futurelib\", \"qloop\", and \"qutil\") provide the optional ability to manage the number of threads created in C and C++ by providing parallel loop constructs.", + "laborHours": 0, + "languages": [], + "name": "Qthreads", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/Qthreads/qthreads/blob/master/COPYING", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Qthreads/qthreads", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MAPVAR-KD is designed to transfer solution results from one finite element mesh to another. 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MAPVAR-KD is a modification of MAPVAR in which the search algorithm was replaced by a kd-tree-based search for better performance on large problems.", + "laborHours": 0, + "languages": [], + "name": "Finite Element Analysis Code", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "CONEX is a code for joining sequentially in time multiple exodusll database files which all represent the same base mesh topology and geometry. It is used to create a single results or restart file from multiple results or restart files which typically arise as the result of multiple restarted analyses. CONEX is used to postprocess the results from a series of finite element analyses. It can join sequentially the data from multiple results databases into a single database which makes it easier to postprocess the results data.", + "laborHours": 0, + "languages": [], + "name": "Finite Element Analysis Code", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GJOIN is a two- or three-dimensional mesh combination program. GJOIN combines two or more meshes written in the GENESIS mesh database format into a single GENESIS mesh. Selected nodes in the two meshes that are closer than a specified distance can be combined. The geometry of the mesh databases can be modified by scaling, offsetting, revolving, nd mirroring. The combined meshes can be further modified by deleting, renaming, or combining material blocks, sideset identifications, or nodeset identifications.", + "laborHours": 0, + "languages": [], + "name": "GJOIN", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Phalanx is a software library to provide flexible dependency management for complex nonlinear partial differential equation operators. 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By constructing the dependency list, sensitivities can be calculated either analytically or by using embedded automatic differentiation software.", + "laborHours": 0, + "languages": [], + "name": "Phalanx V1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/phalanx/copyright.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "BECCA is a learning and control method based on the function of the human brain. The goal behind its creation is to learn to control robots in unfamiliar environments in a way that is very robust, similar to the way that an infant learns to interact with her environment by trial and error. As of this release, this software contains two simulations of BECCA controlling robots: one is a one degree-of-freedom spinner robot and the other is a 7 degree-of-freedom serial link arm with a terminal gripper. In addition, the software contains code that identifies synonyms in a untagged corpus of ASCII words. This last is a demonstration of BECCA's ability to generate abstract concepts from concrete experience. The BECCA simulation is coded so as to make it extensible to new applications. It is modular, object-oriented code in which the portions of the code that are specific to one simulation are easily separable from those portions that are the constant between implementations. BECCA makes very few assumptions about the robot and environment it is learning, and so is applicable to a wide range of learning and control problems.", + "laborHours": 0, + "languages": [], + "name": "Brain-Emulating Cognition and Control Architecture (BECCA) V1.0 beta", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/microgold/Becca35", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ParFlow is a parallel, variabley saturated groundwater flow code that is especially suitable for large scale problem. 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ParFlow simulates the three-dimensional varably saturated subsurface flow in strongly heterogeneous porous media in three spatial dimension.", + "laborHours": 0, + "languages": [], + "name": "Simulation of water flow in terrestrial systems", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/parflow/parflow", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SLURM is an open source, fault-tolerant, and highly scalable cluster management and job scheduling system for large and small computer clusters. 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Finally, it arbitrates conflicting requests for resouces by managing a queue of pending work.", + "laborHours": 0, + "languages": [], + "name": "Simple Linux Utility for Resource Management", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/schedmd/slurm", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Scalable Checkpoint/Restart (SCR) library provides an interface that codes may use to worite our and read in application-level checkpoints in a scalable fashion. 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It has been benchmarked as high as 720GB/s on 1094 nodes of Atlas, which is nearly two orders of magnitude faster thanthe parallel file system.", + "laborHours": 0, + "languages": [], + "name": "The Scalable Checkpoint/Restart Library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/scr/blob/master/LICENSE.TXT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/scr", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The PMGR_COLLECTIVE library provides an interface that MPI implemenataions may call to initialize ranks in a scalable way. It was developed to reduce the startup time MPI appkications, however, other tools such as debugger infrastructures have also found use cases for it. When first developed, it reduced the startup time from 15 minutes to 10 seconds on as 8192-node cluster.", + "laborHours": 0, + "languages": [], + "name": "The Process Manager Collective Library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/pmgr_collective/blob/master/LICENSE.TXT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/pmgr_collective", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A power system simulation that runs on all major platforms, provides open access to all functionality, and supports extended modeling of non-traditional components of the electric power system, such as buildings, distributed resources, and markets. GridLAB-D solution engine can determine the simultaneous state of millions of independent devices, each of which is described by multiple differential equations solved only locally for both state and time. The advantages of this algorithm over traditional finite difference-based simulators are: (1) it is much more accurate; (2) it can handle widely disparate time scales, ranging from sub-seconds to many years; and 3) it is easy to integrate with new modules and third-party systems. The advantage over traditional differential-based solvers is that it is not necessary to integrate all the device's behaviors into a single set of equations that must be solved.", + "laborHours": 0, + "languages": [], + "name": "GridLab-D version 1.0", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/gridlab-d/gridlab-d/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gridlab-d/gridlab-d", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A package of classes for constructing and using distributed sparse and dense matries, vectors and graphs. Templated o the scalar and ordinal types so that any valid floating-point type, as well as any valid integer type can be used with these classes. Other non-standard types, such as 3-by-3 matrices for the scalar type and mod-based integers for ordinal can also be used.", + "laborHours": 0, + "languages": [], + "name": "Tpetra Next-Generation Templated Petra V1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/tpetra/Copyright.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ex1ex2v2 is a translator program which will convert a database in exodus1 format to exodusII format. The exodus 1 format is a defined series of Fortran unformatted writes/reads; the exodusII format is defined by the ExodusII API.", + "laborHours": 0, + "languages": [], + "name": "ex1ex2v2 Version 2.10", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Nem_spread reads it's input command file (default name nem_spread.inp), takes the named ExodusII geometry definition and spreads out the geometry (and optionally results) contained in that file out to a parallel disk system. The decomposition is taken from a scalar Nemesis load balance file generated by the companion utility nem_slice.", + "laborHours": 0, + "languages": [], + "name": "nem_spread Ver. 5.10", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Nem_slice reads in a finite element model description of the geometry of a problem from an ExodusII file and generates either a nodal or elemental graph of the problem. It then calls Chaco to load balance the graph and then outputs a NemesisI load-balance file.", + "laborHours": 0, + "languages": [], + "name": "nem_slice ver. 3.34", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "BLOT is a graphic program for post-processing finite element analyses output in the EXODUS II database format. It is command driven with free-format input and can drive graphics devices supported by the Sandia Virtual Device Interface. BLOT produces mesh plots of the analysis output variables including deformed mesh plots, line contours, filled (painted) contours, vector plots of two/three variables (velocity vectors), and symbol plots of scalar variables (discrete cracks). Features include pathlines of analysis variables drawn on the mesh, element selection by material, element birth and death, multiple views combining several displays on each plot, symmetry mirroring, and node and element numbering. X-Y plots of the analysis variables include time vs. variable plots or variable vs. variable plots, and distance vs. variable plots at selected time steps where distance is the accumulated distance between pairs of nodes or element centers. BLOT is written in as portable a form as possible. Fortran code is written in ANSI Standard FORTRAN-77. Machine-specific routines are limited in number and are grouped together to minimize the time required to adapt them to a new system. SEACAS codes have been ported to several Unix systems", + "laborHours": 0, + "languages": [], + "name": "BLOT Ver. 1.65", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SVDI is the Sandia Virtual Device Interface library which is an internal library used by SEAMS codes (blot and fastq) to provide graphics to multiple device types; primarily X11R6 clients.", + "laborHours": 0, + "languages": [], + "name": "SVDI Ver. 1.1", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The software is a set of technologies developed by the SciDAC Institute for Ultrascale Visualization in order to address the visualization needs for petascale computing and beyond. These technologies include improved I/O performance, simulation co-processing, advanced rendering capabilities, and specialized visualization techniques developed for SciDAC applications.", + "laborHours": 0, + "languages": [], + "name": "Ultrascale visualization capabilities for the ParaView/VTK framework", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Kitware/ParaView", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Simple parallel MD code that serves as a microapplication in the Mantevo suite. Study of computer system design and implementation, benchmarking of new and existing computer systems.", + "laborHours": 0, + "languages": [], + "name": "miniMD v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Mantevo/miniMD", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GROPE is a program that examines the input to a finite element analysis (which is in the GENESIS database format) or the output from an analysis (in the EXODUS database format). GROPE allows the user to examine any value in the database. The display can be directed to the user's terminal or to a print file.", + "laborHours": 0, + "languages": [], + "name": "Grope Ver. 1.38", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Pamgen creates, in parallel, hexahedral or quadrilateral (in 2D) finite element meshes of cubes, cylinders, and portions of cylinders. For some analysis applications it can obviate the normally serial analysis preparation steps of mesh generation and decomposition. Bypassing these serial steps allows construction of large element count (over a billion) meshes. When linked to an application as a library, it allows each process of a parallel simulation to generate its own finite element domain representation at execution time. As a stand-alone application it can produce the representation of the mesh for processor n of k possible processors. The Pamgen library and application are serial as the mesh generation proceeds without reliance on inter-processor communication.", + "laborHours": 0, + "languages": [], + "name": "Pamgen", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "dkrakowski@anl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The TAO project focuses on the development of software for large scale optimization problems. TAO uses an object-oriented design to create a flexible toolkit with strong emphasis on the reuse of external tools where appropriate. Our design enables bi-directional connection to lower level linear algebra support (for example, parallel sparse matrix data structures) as well as higher level application frameworks. The Toolkist for Advanced Optimization (TAO) is aimed at teh solution of large-scale optimization problems on high-performance architectures. Our main goals are portability, performance, scalable parallelism, and an interface independent of the architecture. TAO is suitable for both single-processor and massively-parallel architectures. The current version of TAO has algorithms for unconstrained and bound-constrained optimization.", + "laborHours": 0, + "languages": [], + "name": "TOOLKIT FOR ADVANCED OPTIMIZATION", + "organization": "Argonne National Laboratory (ANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://bitbucket.org/petsc/petsc", + "status": "Production", + "tags": [ + "DOE CODE", + "Argonne National Laboratory (ANL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Libra is a tool for scalable analysis of load balance data from all processes in a parallel application. Libra contains an instrumentation module that collects model data from parallel applications and a parallel compression mechanism that uses distributed wavelet transforms to gather load balance model data in a scalable fashion. Data is output to files, and these files can be viewed in a GUI tool by Libra users. The GUI tool associates particular load balance data with regions for code, emabling users to view the load balance properties of distributed \"slices\" of their application code.", + "laborHours": 0, + "languages": [], + "name": "Libra: Scalable Load Balance Analysis", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/tgamblin/libra/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/tgamblin/libra", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The code to be released is a new addition to the LAMMPS molecular dynamics code. LAMMPS is developed and maintained by Sandia, is publicly available, and is used widely by both natioanl laboratories and academics. The new addition to be released enables LAMMPS to perform molecular dynamics simulations of shock waves using the Multi-scale Shock Simulation Technique (MSST) which we have developed and has been previously published. This technique enables molecular dynamics simulations of shock waves in materials for orders of magnitude longer timescales than the direct, commonly employed approach.", + "laborHours": 0, + "languages": [], + "name": "Multi-scale Shock Technique", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lammps/lammps", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A Trilinos package for applying stochastic Galerkin uncertainty quantification methods to large-scale C++ application codes, primarily stochastic partial differential equations. Stokhos is intended for use in estimating uncertainties for general scientific computations and is based on published algorithms. It provides no capability for implementing those computations itself. Estimating uncertainties and errors from solution algorithms or simulations, primarily simulations of partial differential equations, arising from uncertainties or errors in solution algorithm or simulation input data, including statistical moments, probabilities, and coefficients of variation.", + "laborHours": 0, + "languages": [], + "name": "Stokhos v 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The SST provides a parallel framework to perform system simulation of computer architectures to determine their performance and power consumption. Additionally, the SST contains basic models of a computer processor, and interconnect and can connect to an external memory simulator (DRAMSim II). The SST framework provides a simple interface by which other computer simulation models can be combined under a common parallel discrete event-based simulation environment. This allows design exploration of future architectures, analysis of how current computer programs will function on future architectures. The SST provides a parallel discrete event simulation framework, including partitioning and object distribution over MPI. It also provides a mechanism by which components can report their power consumption for analysis.", + "laborHours": 0, + "languages": [], + "name": "Structural Simluation Toolkit (SST) V 2.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sstsimulator/sst-core", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Poblano is a Matlab toolbox of large-scale algorithms for nonlinear optimization. The algorithms in Poblano require only first-order derivative information (e.g., gradients for scalar-valued objective functions), and therefore can scale to very large problems [6].Poblano is a set of general purpose methods for solving unconstrained nonlinear optimization methods. It has been applied to standard test problems covering a range of application areas. The driving application for Poblano development has been tensor decompositions in data analysis applications (bibliometric analysis, social network analysis, chemometrics, etc.) [1].", + "laborHours": 0, + "languages": [], + "name": "Poblano v 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/andrewssobral/poblano_toolbox/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/andrewssobral/poblano_toolbox", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A package for computing and applying algebraic preconditioners in the context of preconditioned iterative methods. It is related to the existing Ifpack package in Trilinos but provides support for template scalar and ordinal types and explicitly relies on Tpetra and Kokkos instead of Epetra. Algebraic preconditioners are used by iterative solvers as solution method in engineering and scientific applications, including nonlinear equation solving, time integration, sensitivity analysis, stability analysis, optimization, and uncertainty quantification.", + "laborHours": 0, + "languages": [], + "name": "Tifpack v 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Climate Data Analysis Tools (CDAT) is a software infrastructure that uses an object-oriented scripting language to link together separate software subsystems and packages thus forming an integrated environment for solving model diagnosis problems, The power of the system comes from Python and its ability to seamlissly interconnect software. Python provides a general purpose and full-featured scripting language with a variety of user interfaces including command-line interaction, stand-alone scripts (applications) and fraphical user interfaces (GUI). The CDAT subsystems, implemented as modules, provide access to and management of gridded data (Climate Data Management Systems or CDMS); large-array numerical operations (Numerical Python); and visualization (Visualization and Control System or VCS).", + "laborHours": 0, + "languages": [], + "name": "Climate Data Analysis Tools", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/UV-CDAT/uvcdat/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/UV-CDAT/uvcdat", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PyUtilib is a collection of Python utilities that are used by Python packages developed at Sandia National Laboratories, including the Coopr and FAST Python packages. PyUtilib includes facilities for managing factories, subprocess management, interfacing with Excel, and applying numerical techniques.", + "laborHours": 0, + "languages": [], + "name": "PyUtilib: A Pythos Utility Library v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PyUtilib/pyutilib/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SNL Coopr Forum is a set of Python routines that provide extensions to the Coopr optimization software. This software augments the open-source Coopr project to provide a more comprehensive capability for formulating and solving optimization applications.Optimization is a common analysis tool used in engineering design and scientific discovery. The SNL Coopr Forum software augments the Coopr Forum open source project to provide extensions of the Coopr optimization framework. Specifically, Coopr Forum provides plugin tools that allow Coopr to apply different optimization solvers, manage optimization solvers in a distributed manner, and to process input and output files. Thus, Coopr Forum is comprised of a variety of distinct software components, each of which provides a different capability that can be used within Coopr.", + "laborHours": 0, + "languages": [], + "name": "Coopr Forum v 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Pyomo/pyomo", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Implements previously developed methodology to calculate total disutility to an organization caused by impacts imposed upon the physical system in question (electric power transmission system, water system, etc).Critical infrastructure utility personnel will use this as a planning tool to determine where system weaknesses are and where improvements should be made such that the consequence of some impact is no longer higher than acceptable.", + "laborHours": 0, + "languages": [], + "name": "Critical Infrastructure Consequence Modeler v 0.5.0 Beta", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ccss-sandia/cicm", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ccss-sandia/cicm", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "diod is an I/O forwarding daemon used to improve scalability of file systems on large Linux clusters.", + "laborHours": 0, + "languages": [], + "name": "diod - distributed I/O daemon", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/chaos/diod", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The SIERRA Toolkit is a collection of libraries to facilitate the development of parallel engineering analysis applications. These libraries supply basic core services that an engineering analysis application may need such as a parallel distributed and dynamic mesh database (for unstructured meshes), mechanics algorithm support (parallel infrastructure only), interfaces to parallel solvers, parallel mesh and data I/O, and various utilities (timers, diagnostic tools, etc.).The toolkit is intended to reduce the effort required to develop an engineering analysis application by removing the need to develop core capabilities that most every application would require.", + "laborHours": 0, + "languages": [], + "name": "SIERRA Toolkit v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/stk/COPYRIGHT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The DAKOTA (Design Analysis Kit for Optimization and Terascale Applications) toolkit provides a flexible and extensible interface between simulation codes (computational models) and iterative analysis methods. By employing object-oriented design to implement abstractions of the key components required for iterative systems analyses, the DAKOTA toolkit provides a flexible and extensible problem-solving environment for design and analysis of computational models on high performance computers.A user provides a set of DAKOTA commands in an input file and launches DAKOTA. DAKOTA invokes instances of the computational models, collects their results, and performs systems analyses. DAKOTA contains algorithms for optimization with gradient and nongradient-based methods; uncertainty quantification with sampling, reliability, polynomial chaos, stochastic collocation, and epistemic methods; parameter estimation with nonlinear least squares methods; and sensitivity/variance analysis with design of experiments and parameter study methods. These capabilities may be used on their own or as components within advanced strategies such as hybrid optimization, surrogate-based optimization, mixed integer nonlinear programming, or optimization under uncertainty. Services for parallel computing, simulation interfacing, approximation modeling, fault tolerance, restart, and graphics are also included.", + "laborHours": 0, + "languages": [], + "name": "DAKOTA Design Analysis Kit for Optimization and Terascale", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pemryan/DAKOTA", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ForTrilinos stands for interfaces to Trilinos. It effectively replaces common practices for interfacing Fortran codes with Trilinos C++ packages. Common practices include writing user-specific drivers and exploiting the name-mangling schemes of specific compilers. ForTrilinos improves portability and robustness by exploiting the C interoperability constructs of Fortran 2003. These constructs facilitate binding Fortran interface bodies to their equivalent C function prototypes, providing for name resolution independent of the compiler™s underlying mangling scheme and guaranteeing compatible type bit representations. Furthermore, ForTrilinos maintains the overall design philosophy and architecture of Trilinos by creating a derived type structure in Fortran similar to the class hierarchy in the underlying C++.ForTrilinos can be applied wherever the underlying Trilinos packages can be applied.", + "laborHours": 0, + "languages": [], + "name": "ForTrilinos v 10.1", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The BOUT++ is a C++ framework for developing plasma fluid simulation codes, and has been developed by the University of York/UK and the LLNL Fusion Energy Program from the original 3D boundary turbulence 2-fluid edge simulation code BOUT. The aim of BOUT++ is to automate the common tasks needed for simulation codes, and to separate the complicated details such as differential geometry, parallel communication, and file input/output from the user-specified equations to be solved. The BOUT++ consists of BOUT++ library and physics modules. BOUT++ modules contains the coding for the specific set of physics equations and boundary conditions for particular physics problems using defined functions in BOUT++ library to perform standard differential operators.", + "laborHours": 0, + "languages": [], + "name": "BOUT++", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/boutproject/BOUT-2.0", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GlobiPack contains a small collection of optimization globalization algorithms. These algorithms are used by optimization and various nonlinear equation solver algorithms.Used as the line-search procedure with Newton and Quasi-Newton optimization and nonlinear equation solver methods. These are standard published 1-D line search algorithms such as are described in the book Nocedal and Wright Numerical Optimization: 2nd edition, 2006. One set of algorithms were copied and refactored from the existing open-source Trilinos package MOOCHO where the linear search code is used to globalize SQP methods. This software is generic to any mathematical optimization problem where smooth derivatives exist. There is no specific connection or mention whatsoever to any specific application, period. You cannot find more general mathematical software.", + "laborHours": 0, + "languages": [], + "name": "GlobiPack v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/globipack/copyright_header.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Used to solve basic unconstrained optimization problems that can produce smooth accurate gradients. These are standard published unconstrained optimization such as are described in the book Nocedal and Wright Numerical Optimization: 2nd edition, 2006. This software is generic to any mathematical optimization problem where smooth derivatives exist. There is no specific connection or mention whatsoever to any specific application, period. You cannot find more general mathematical software.OptiPack contains some simple optimization algorithms built on Thyra. Currently, only a few different nonlinear conjugate gradient methods are implemented.", + "laborHours": 0, + "languages": [], + "name": "Optipack", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/optipack/copyright_header.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "CTrilinos provides a C language interface to a subset of Trilinos. The interface hides the object-oriented nature of Trilinos by allowing these objects to be acted upon using a set of three integers that uniquely identify the object. No pointers to the underlying objects are made available for direct manipulation, protecting against segmentation faults. CTrilinos serves as a base layer over which the ForTrilinos linking layer operates, facilitating the use Trilinos from object-oriented Fortran.CTrilinos can be applied wherever the supported underlying Trilinos packages can be applied.", + "laborHours": 0, + "languages": [], + "name": "CTrilinos v 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/CTrilinos", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Geryon is intended to be a simple library for managing the CUDA Runtime, CUDA Driver, and OpenCL APIs with a consistent interface archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Change from one API to another by simply changing the namespace archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Use multiple APIs in the same code archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Lightweight (only include files no build required) archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Manage device query and selection archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Simple vector and matrix containers archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Simple routines for data copy and type casting archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Simple routines for data I/O archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Simple classes for managing device timing archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Simple classes for managing kernel compilation and execution The primary application is to facilitate writing a single code that can be compiled using the CUDA Runtime API, the CUDA Driver API, or OpenCL.", + "laborHours": 0, + "languages": [], + "name": "geryon v. 0.1", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/scicomp/geryon/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/scicomp/geryon", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SNL cxxtest is a set of Python routines that support software testing for C++ codes. This software augments the open-source cxxtest project to provide a more comprehensive capability for software testing.", + "laborHours": 0, + "languages": [], + "name": "SNL cxxtest v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/CxxTest/cxxtest", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Memory size has long limited large-scale applications on high-performance computing (HPC) systems. Increasing core counts per chip and power density constraints, which limit the number of DIMMs per node, have exacerbated this problem. Mechanisms to manage memory usage - preferably transparently - more efficiently could increase effective DRAM capacity and, thus, the benefit of multicore similarity. These data regions occupy multiple physical locations within a multicore node and thus offer a potential savings in memory capacity. These data, primarily residing in heap, are quite dynamic, which makes them difficult to manage statically. SBLLmalloc is a memory allocation library that automatically identifies the replicated memory blocks and merges them into a single copy. SBLLmalloc does not require application or OS changes since we implement it as a user-level library that can be linked at runtime. SBLLmalloc provides the capability to run larger problems using the same hardware configuration in multicore nodes. SBLLmalloc has been implemented for Linux clusters.", + "laborHours": 0, + "languages": [], + "name": "SBLLmalloc V1.0", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/SBLLmalloc", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Muster is a framework for scalable cluster analysis. It includes implementations of classic K-Medoids partitioning algorithms, as well as infrastructure for making these algorithms run scalably on very large systems. In particular, Muster contains algorithms such as CAPEK (described in reference 1) that are capable of clustering highly distributed data sets in-place on a hundred thousand or more processes.", + "laborHours": 0, + "languages": [], + "name": "Muster: Massively Scalable Clustering", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/muster/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/muster", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SAMRAI is an object-oriented support library for structured adaptice mesh refinement (SAMR) simulation of computational science problems, modeled by systems of partial differential equations (PDEs). SAMRAI is developed and maintained in the Center for Applied Scientific Computing (CASC) under ASCI ITS and PSE support. SAMRAI is used in a variety of application research efforts at LLNL and in academia. These applications are developed in collaboration with SAMRAI development team members.", + "laborHours": 0, + "languages": [], + "name": "Structured Adaptive Mesh Refinement Application Infrastructure", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/SAMRAI", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2018-02-22" + }, + "description": "MFEM is a general, modular library for finite element methods. It provides a variety of finite element spaces and bilinear/linear forms in 2D and 3D. MFEM also includes classes for dealing with various types of meshes and their refinement. For more information, see the project website: http://mfem.org/.", + "laborHours": 0, + "languages": [], + "name": "MFEM: Modular Finite Element Methods Library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/mfem/mfem", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2018-02-22" + }, + "description": "GLVis is an OpenGL tool for visualization of finite element meshes and functions. When started without any options, GLVis starts a server, which waits for a socket connections and visualizes any recieved data. This way the results of simulations on a remote (parallel) machine can be visualized on the lical user desktop. GLVis can also be used to visualize a mesh with or without a finite element function (solution). It can run a batch sequence of commands (GLVis scripts), or display previously saved socket streams. For more information, see the project website: http://glvis.org/.", + "laborHours": 0, + "languages": [], + "name": "GLVis: OpenGL Finite Element Visualization Tool", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/glvis/glvis", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Teko is a C++ library for implementation of blocked and segregated preconditioners in the context of iterative solvers for linear systems. Capabilities for decomposing larger matrices into user defined sub blocks are also provided. Additional functionality for creating approximate inverse operators utilizing solver and preconditioning packages in the Trilinos framework has also been implemented. Teko's primary application is in multiphysics simulation environment where a decomposition of the linear system in to physically meaningful blocks can be utilized to enhance performance of an iterative solver. However, applicability may extend to other problem domains where matrices can be decomposed into meaningful blocks.", + "laborHours": 0, + "languages": [], + "name": "Teko v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Conjoin is a code for joining sequentially in time multiple exodusII database files. It is used to create a single results or restart file from multiple results or restart files which typically arise as the result of multiple restarted analyses. The resulting output file will be the union of the input files with a status variable indicating the status of each element at the various time planes.Combining multiple exodusII files arising from a restarted analysis or combining multiple exodusII files arising from a finite element analysis with dynamic topology changes.", + "laborHours": 0, + "languages": [], + "name": "Conjoin", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ejoin is a three-dimensional mesh combination program. ejoin combines two or more meshes written in the exodusII mesh database format into a single exodusII mesh. Selected nodes in the wo meshes that are closer than a specified distance can be combined The geometry of the mesh databases an be modified by offsetting. Any results data on one or more of the input mesh files will be copied to the appropriate nodes/elements/nodesets/sidesets on the output file.Preparation of input mesh files for finite element analysis programs using the exodusII format.", + "laborHours": 0, + "languages": [], + "name": "Ejoin", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This application can determine the performance and chemical behavior of batteries in 1D when they are cycled. With CanTrilBat, we are developing predictive phenomenological models for battery systems to predict operating performance and rate limiting steps in the performance of battery models. Particular attention is paid to primary and secondary chemistry mechanisms, such as the thermal runaway mechanisms experienced in secondary lithium ion batteries or self-discharge reaction mechanism that all batteries experience to one extent or another. The first application of this model has been for modeling the performance of thermal batteries. However, an implementation for secondary ion batteries is next. CanTrilBat applications solves transient problems involving batteries. It is a 1-D application that represents 3-D physical systems that can be reduced using the porous flow approximation for the anode, cathode, and separator. A control volume formulation is used to track conserved quantities. An operator-split approach is used to calculate the chemistry, diffusion and electronic transport that occurs within cathode and anode particles, allowing for the reduction in code complexity.", + "laborHours": 0, + "languages": [], + "name": "CanTrilBat", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Cantera/cantera", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This program can be used to read a LC-MS/MS data file from either a Finnigan ion trap mass spectrometer (.Raw file) or an Agilent Ion Trap mass spectrometer (.MGF and .CDF files) and create a selected ion chromatogram (SIC) for each of the parent ion masses chosen for fragmentation. The largest peak in each SIC is also identified, with reported statistics including peak elution time, height, area, and signal to noise ratio. It creates several output files, including a base peak intensity (BPI) chromatogram for the survey scan, a BPI for the fragmentation scans, an XML file containing the SIC data for each parent ion, and a \"flat file\" (ready for import into a database) containing summaries of the SIC data statistics.", + "laborHours": 0, + "languages": [], + "name": "MS/MS Automated Selected Ion Chromatograms", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/MASIC", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Pagoda is a set of parallel tools as well as an application programmer interface for parallel data analysis of high-resolution climate data. Pagoda implements data parallel versions of some of the commonly used tools from the NetCDF Operators. These tools support data processing operations including subsetting, record and ensemble averages, binary operations, and interpolation. Pagoda also provides an application programmer interface for developing custom data analysis programs.", + "laborHours": 0, + "languages": [], + "name": "Pagoda", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/jeffdaily/pagoda/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jeffdaily/pagoda", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "nodediag is an extensible framework for packaging system diagnostics for Linux clusters.", + "laborHours": 0, + "languages": [], + "name": "nodediag", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/chaos/nodediag", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MixDown is a meta-build tool that orchestrates and manages the building of multiple 3rd party libraries. It can manage the downloading, uncompressing, unpacking, patching, configuration, build, and installation of 3rd party libraries using a variety of configuration and build tools. As a meta-build tool, it relies on 3rd party tools such as GNU Autotools, make, Cmake, scons, etc. to actually confugure and build libraries. MixDown includes an extensive database of settings to be used for general machines and specific leadership class computing resources.", + "laborHours": 0, + "languages": [], + "name": "MixDown", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/tepperly/MixDown", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "lustre-tools-llnl is a small set of commands that are helpful for using and administering a lustre file system.", + "laborHours": 0, + "languages": [], + "name": "lustre-tools-llnl", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/chaos/lustre-tools-llnl", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This program is used to compute the predicted normalized elution time (NET) for a list of peptide sequences. It includes the Kangas/Petritis neural network trained model, the Krokhin hydrophobicity model, and the Mant hydrophobicity model. In addition, it can compute the predicted strong cation exchange (SCX) fraction (on a 0 to 1 scale) in which a given peptide will appear.", + "laborHours": 0, + "languages": [], + "name": "Normalized Elution Time Prediction Utility", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/Protein-Digestion-Simulator/", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "OVIS is a tool for intelligent, real-time monitoring of computational clusters. While current monitoring tools treat the cluster as singleton nodes, OVIS considers the cluster as comprised of comparative ensembles. OVIS provides a visual display of deterministic information about state variables and their aggregate statistics. Comparison to statistical quantities can be used for the automatic identification of abnormalities. OVIS collects and processes active data. OVIS can also process historical data files or database files.", + "laborHours": 0, + "languages": [], + "name": "OVIS", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ovis-hpc/ovis", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Albany code is a general purpose finite element code for solving partial differential equations (PDEs). Albany is a research code that demonstrates how a PDE code can be built by interfacing many of the open-source software libraries that are released under Sandia's Trilinos project. Part of the mission of Albany is to be a testbed for new Trilinos libraries, to refine their methods, usability, and interfaces. Albany also serves as a demonstration code on how to build an application code against an installed Trilinos project. Because of this, Albany is a desirable starting point for new code development efforts that wish to make heavy use of Trilinos. The physics solved in Albany are currently only very academic problems, such as heat transfer, linear elasticity, and nonlinear elasticity. Albany includes hooks to optimization and uncertainty quantification algorithms, including those in the Dakota toolkit.", + "laborHours": 0, + "languages": [], + "name": "Albany v 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gahansen/Albany", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PECOS is a computational library for creating and manipulating realizations of stochastic quantities, including scalar uncertain variables, random fields, and stochastic processes. It offers a unified interface to univariate and multivariate polynomial approximations using either orthogonal or interpolation polynomials; numerical integration drivers for Latin hypercube sampling, quadrature, cubature, and sparse grids; and fast Fourier transforms using third party libraries. The PECOS core also offers statistical utilities and transformations between various representations of stochastic uncertainty. PECOS provides a C++ API through which users can generate and transform realizations of stochastic quantities. It is currently used by Sandia's DAKOTA, Stokhos, and Encore software packages for uncertainty quantification and verification. PECOS generates random sample sets and multi-dimensional integration grids, typically used in forward propagation of scalar uncertainty in computational models (uncertainty quantification (UQ)). PECOS also generates samples of random fields (RFs) and stochastic processes (SPs) from a set of user-defined power spectral densities (PSDs). The RF/SP may be either Gaussian or non-Gaussian and either stationary or nonstationary, and the resulting sample is intended for run-time query by parallel finite element simulation codes. Finally, PECOS supports nonlinear transformations of random variables via the Nataf transformation and extensions.", + "laborHours": 0, + "languages": [], + "name": "Parallel Environment for the Creation of Stochastics 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pemryan/DAKOTA", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "HiPerSBTK consists of software which integrates equation solving, optimization and graphical interface functions to perform large-scale systems biology modeling.", + "laborHours": 0, + "languages": [], + "name": "HiPerSBTK", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.vtk.org/licensing/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://gitlab.kitware.com/vtk/vtk/", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Amesos2 is a templated direct sparse solver package. Amesos2 provides interfaces to direct sparse solvers, rather than providing native solver capabilities. Amesos2 is a derivative work of the Trilinos package Amesos.", + "laborHours": 0, + "languages": [], + "name": "Amesos2 Templated Direct Sparse Solver Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Image Composition Engine for Tiles (lceT) is a high-performance sort-last parallel rendering library. It is designed to be used in parallel applications requiring rendering. The primary purpose of IceT is to be integrated into parallel visualization applications such as ParaView to provide parallel rendering capabilities. The Image Composition Engine for Tiles (lceT) is a high-performance sort-last parallel rendering library. IceT uses a \"sort-Iasf' approach to rendering. Each process in a parallel application independently renders a local piece of geometry. The resulting images are given to IceT, and IceT combines the images together to form a single cohesive image. Ice T is also capable of driving tiled displays, largeformat displays comprising an array of smaller displays. To this end IceT can collect the smaller tile images and organize them such that the entire tiled display can be driven. Ice T takes advantage of spatial coherence in geometry by identifying empty regions of the display and reducing the overall required work.", + "laborHours": 0, + "languages": [], + "name": "Image Composition Engine for Tiles", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/kmorel/IceT", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "LibVMI is an introspection library focused on reading and writing memory from virtual machines (VMs). For convenience, LibVMI also provides functions for accessing CPU registers, pausing and unpausing a VM, printing binary data, and more. LibVMI is designed to work across multiple virtualization platforms. LibVMI currently supports VMs running in either Xen or KVM. LibVMI also supports reading physical memory snapshots when saved as a file.", + "laborHours": 0, + "languages": [], + "name": "LibVMI", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/libvmi/libvmi", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "miniXyce uses a modified nodal analysis to approximate the governing differential algebraic equations (DAEs) for electronic devices and their coupling via a network and Kirchoff's conservation laws. The resulting nonlinear problem is solved iteratively using a fully coupled Newton method,which in turn results in a linear system that is solved using an iterative method.", + "laborHours": 0, + "languages": [], + "name": "miniXyce", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Mantevo/miniXyce", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Peridigm is a multiphysics simulation code for peridynamic models. It provides the capability to simulate nonlocal models of solids undergoing large deformations and failure. It provides basic linear elastic and perfectly plastic peridynamic material models, and well as the capability to apply simply initial, boundary and loading conditions.", + "laborHours": 0, + "languages": [], + "name": "Peridigm", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/peridigm/peridigm", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "TriUtils is a package of utilities for other Trilinos packages. TriUtils contains utilities to perform common operations such as command line parsing, and input file reading.", + "laborHours": 0, + "languages": [], + "name": "TriUtils Trilinos Utilities Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Trilinos I/O support (Trios) software provides general I/O support for applications using Trilinos libraries. In particular, this software will include parallel I/O support to read and write selected Trilinos data structures to commonly-used file formats such as netCDF, hdf5, and Exodus.", + "laborHours": 0, + "languages": [], + "name": "Trios", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Epetra provides the fundamental construction routines and service functions that are required for serial and paraliellinear algebra libraries using double precision scalar values and int ordinal values.", + "laborHours": 0, + "languages": [], + "name": "Epetra Linear Algebra Services Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "EpetraExt is a set of extensions to Epetra. To allow Epetra to remain focused on its primary functionality as a Linear Algebra object support, EpetraExt was created to maintain additional support for such capabilities as transformations (permutations, subblock views, etc.), coloring support, partitioning (Zoltan), and I/O.", + "laborHours": 0, + "languages": [], + "name": "EpetraExt (Epetra Extended) - Linear Algebra Services", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Panzer is a finite element assembly engine used for research on solving partial differential equations (PDEs). Panzer takes a physics model implemented by a user and creates and populates the linear algrbra objects, such as residuals and Jacobians, for use in implicit finite element methods. Panzer can be considered \"glue code\" that pulls together the capabilities of a number of open-source Trilinos packages (Epetra, Intrepid, Sacado, FEI, and Phalanx). This code provides a generic framework for describing a set of partial differential equations. Panzer provides a simple example driver that solves the undergraduate textbook partial differential equation of heat transfer in a solid (see for example, \"Transport Phenomena\" by Bird Stewart, and Lightfoot 1960). Panzer is intended as a tool to simplify the use of the discretization tools in Trilinos (Intrepid and Phalanx) and is meant to aid in fundamental research on discretizations. Panzer will be released open-source as a package in Trilinos under a BSD license.", + "laborHours": 0, + "languages": [], + "name": "Panzer", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/panzer/Copyright.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SEACAS Trilinos is the packaging of the SEACAS applications inside the Trilinos software package in a manner such that the Trilinos build and configurationprocess can be used to build and configure the SEACAS applications.", + "laborHours": 0, + "languages": [], + "name": "SEACAS Trilinos", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/seacas/Jamfile", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "IRIS is a search tool plug-in that is used to implement latent topic feedback for enhancing text navigation. It accepts a list of returned documents from an information retrieval wywtem that is generated from keyword search queries. Data is pulled directly from a topic information database and processed by IRIS to determine the most prominent and relevant topics, along with topic-ngrams, associated with the list of returned documents. User selected topics are then used to expand the query and presumabley refine the search results.", + "laborHours": 0, + "languages": [], + "name": "Search tool plug-in: imploements latent topic feedback", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/iris", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "SmartImport.py is a Python source-code file that implements a replacement for the standard Python module importer. The code is derived from knee.py, a file in the standard Python diestribution , and adds functionality to improve the performance of Python module imports in massively parallel contexts.", + "laborHours": 0, + "languages": [], + "name": "Python import replacement", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/langton/MPI_Import", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/langton/mpi_import", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "dkrakowski@anl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MeshKit is an open-source library of mesh generation functionality. MeshKit has general mesh manipulation and generation functions such as Copoy, Move, Rotate and Extrude mesh. In addition, new quad mesh and embedded boundary Cartesian mesh algorithm (EB Mesh) are included. Interfaces to several public domain meshing algorithms (TetGen, netgen, triangle, Gmsh, camal) are also offered. This library interacts with mesh data mostly through iMesh including accessing the mesh in parallel. It also can interact with iGeom interface to provide geometry functionality such as importing solid model based geometries. iGeom and IMesh are implemented in the CGM and MOAB packages, respectively. For some non-existing function in iMesh such as tree-construction and ray-tracing, MeshKit also interacts with MOAB functions directly.", + "laborHours": 0, + "languages": [], + "name": "MeshKit", + "organization": "Argonne National Laboratory (ANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://bitbucket.org/fathomteam/meshkit", + "status": "Production", + "tags": [ + "DOE CODE", + "Argonne National Laboratory (ANL)" + ] + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Service-Poke is a system which manages running services ensuring only one copy is running and potentially up to one more copy is marked for future execution.", + "laborHours": 0, + "languages": [], + "name": "Service-Poke", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/EMSL-MSC/service-poke", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Co-PylotDB, written completely in Python, provides a user interface (UI) with which to select user and data file(s), directories, and file content, and provide or capture various other information for sending data collected from running any computer program to a pre-formatted database table for persistent storage. The interface allows the user to select input, output, make, source, executable, and qsub files. It also provides fields for specifying the machine name on which the software was run, capturing compile and execution lines, and listing relevant user comments. Data automatically captured by Co-PylotDB and sent to the database are user, current directory, local hostname, current date, and time of send. The UI provides fields for logging into a local or remote database server, specifying a database and a table, and sending the information to the selected database table. If a server is not available, the UI provides for saving the command that would have saved the information to a database table for either later submission or for sending via email to a collaborator who has access to the desired database.", + "laborHours": 0, + "languages": [], + "name": "Co-PylotDB - A Python-Based Single-Window User Interface for Transmitting Information to a Database", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dwbarne/PYLOTDB", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "EXOMATLAB extracts the global transient variable data from an exodus file and writes it to a text-based file readable by the Matlab program.", + "laborHours": 0, + "languages": [], + "name": "exomatlab", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Domain Name System Security Extensions (DNSSEC) add authentication to the DNS. However, analyzing and troubleshooting a DNSSEC deployment is difficult in part because of the protocol complexity and in part because authentication involves retrieving dependent components from a number of different Internet locations. DNSViz was written to bring all these DNSSEC components together into a single graph, so they can be represented visually, and nuances can be highlighted for easy identification. DNSViz includes functionality for both analyzing a domain name using active probing and visual representation of the domain name, available currently through a Web interface.", + "laborHours": 0, + "languages": [], + "name": "DNSViz", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dnsviz/dnsviz", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "eCo-PylotDB, written completely in Python, provides a script that parses incoming emails and prepares extracted data for submission to a database table. The script extracts the database server, the database table, the server password, and the server username all from the email address to which the email is sent. The database table is specified on the Subject line. Any text in the body of the email is extracted as user comments for the database table. Attached files are extracted as data files with each file submitted to a specified table field but in separate rows of the targeted database table. Other information such as sender, date, time, and machine from which the email was sent is extracted and submitted to the database table as well. An email is sent back to the user specifying whether the data from the initial email was accepted or rejected by the database server. If rejected, the return email includes details as to why.", + "laborHours": 0, + "languages": [], + "name": "eCo-Pylot - A Python-Based Script for Sending Parsed Email Data to a Database", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dwbarne/PYLOTDB.git", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GEN3D is a three-dimensional mesh generation program. The three-dimensional mesh is generated by mapping a two-dimensional mesh into threedimensions according to one of four types of transformations: translating, rotating, mapping onto a spherical surface, and mapping onto a cylindrical surface. The generated three-dimensional mesh can then be reoriented by offsetting, reflecting about an axis, and revolving about an axis. GEN3D can be used to mesh geometries that are axisymmetric or planar, but, due to three-dimensional loading or boundary conditions, require a three-dimensional finite element mesh and analysis. More importantly, it can be used to mesh complex three-dimensional geometries composed of several sections when the sections can be defined in terms of transformations of two dimensional geometries. The code GJOIN is then used to join the separate sections into a single body. GEN3D reads and writes twodimensional and threedimensional mesh databases in the GENESIS database format; therefore, it is compatible with the preprocessing, postprocessing, and analysis codes used by the Engineering Analysis Department at Sandia National Laboratories, Albuquerque, NM.", + "laborHours": 0, + "languages": [], + "name": "GEN3D Ver. 1.37", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GENSHELL is a three-dimensional shell mesh generation program. The threedimensional shell mesh is generated by mapping a two-dimensional quadrilateral mesh into three dimensions according to one of several types of transformations: translation, mapping onto a spherical, ellipsoidal, or cylindrical surface, and mapping onto a user-defined spline surface. The generated three-dimensional mesh can then be reoriented by offsetting, reflecting about an axis, revolving about an axis, and scaling the coordinates. GENSHELL can be used to mesh complex three-dimensional geometries composed of several sections when the sections can be defined in terms of transformations of two-dimensional geometries. The code GJOIN is then used to join the separate sections into a single body. GENSHELL updates the EXODUS quality assurance and information records to help track the codes and files used to generate the mesh. GENSHELL reads and writes two-dimensional and three-dimensional mesh databases in the GENESIS database format; there, it is compatible with the preprocessing, postprocessing,and analysis codes in the Sandia National Laboratories EngineeEngineering Analysis Code Access System (SEACAS).", + "laborHours": 0, + "languages": [], + "name": "genshell", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GREPOS is a mesh utility program that repositions or modifies the configuration of a two- dimensional or three-dimensional mesh. GREPOS can be used to change the orientation and size of a two- dimensional or three-dimensional mesh; change the material block, nodeset, and sideset IDs; or \"explode\" the mesh to facilitate viewing of the various parts of the model, and several other mesh modification utilities.", + "laborHours": 0, + "languages": [], + "name": "GREPOS", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "KLU2 is a direct sparse solver for solving unsymmetric linear systems. It is related to the existing KLU solver, (in Amesos package and also as a stand-alone package from University of Florida) but provides template support for scalar and ordinal types. It uses a left looking LU factorization method.", + "laborHours": 0, + "languages": [], + "name": "KLU2 Direct Linear Solver Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://trilinos.org/download/license/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PylotDB, written completely in Python, provides a user interface (UI) with which to interact with, analyze, graph data from, and manage open source databases such as MySQL. The UI mitigates the user having to know in-depth knowledge of the database application programming interface (API). PylotDB allows the user to generate various kinds of plots from user-selected data; generate statistical information on text as well as numerical fields; backup and restore databases; compare database tables across different databases as well as across different servers; extract information from any field to create new fields; generate, edit, and delete databases, tables, and fields; generate or read into a table CSV data; and similar operations. Since much of the database information is brought under control of the Python computer language, PylotDB is not intended for huge databases for which MySQL and Oracle, for example, are better suited. PylotDB is better suited for smaller databases that might be typically needed in a small research group situation. PylotDB can also be used as a learning tool for database applications in general.", + "laborHours": 0, + "languages": [], + "name": "PylotDB - A Database Management, Graphing, and Analysis Tool Written in Python", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/dwbarne/PYLOTDB/blob/c392983605dcc3c23ecf00cf03d69ff70d74e36f/PylotDB/pylotdb.py", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dwbarne/PYLOTDB/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This software consists of code modifications to the open-source OpenSceneGraph software package to enable the creation of TlFF images containing 16 bit unsigned data. They also allow the user to disable compression and set the DPI tags in the resulting TIFF Images. Some image analysis programs require uncompressed, 16 bit unsigned input data. These code modifications allow programs based on OpenSceneGraph to write out such images, improving connectivity between applications.", + "laborHours": 0, + "languages": [], + "name": "TIFF Image Writer patch for OpenSceneGraph", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/openscenegraph/OpenSceneGraph", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The functionality of heRXD includes the following: distance and angular calibration and viewing flat-panel detector images used for X-ray diffraction; image (polar) rebinning or \"caking\"; line position fitting in powder diffraction images; image segmentation or \"blob finding\"; crystal orentation indesing; and lattice vector refinement. These functionalities encompass a critical set analyzing teh data for high-energy diffraction measurements that are currently performed at synchrotron sources such as the Advanced Photon Source (APS). The software design modular and open source under LGPL. The intent is to provide a common framework and graphical user interface that has the ability to utillize internal as well as external subroutines to provide various optins for performing the fuctionalities listed above. The software will initially be deployed at several national user facilities--including APS, ALS, and CHESS--and then made available for download using a hosting service such as sourceforge.", + "laborHours": 0, + "languages": [], + "name": "High-Energy X-Ray Diffraction Analysis Tool", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/praxes/hexrd", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MountPointAttributes is a software component that provides client code with a technique to raise the local namespace of a file to a global namespace. 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This provides a development package where the computationally intensive parts of a code can be written in efficient Fortran, and the high level controlling code can be written in the much more versatile Python language.", + "laborHours": 0, + "languages": [], + "name": "Python interface generator for Fortran based codes (a code development aid)", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/dpgrote/Forthon/blob/master/License.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dpgrote/Forthon", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ECCE provides a sophisticated graphical user interface, scientific visualization tools, and the underlying data management framework enabling scientists to efficiently set up calculations and store, retrieve, and analyze the rapidly growing volumes of data produced by computational chemistry studies. 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With this setup, you can see multiple orders of magnitude reduction in storage requirements for temporary data collections.", + "laborHours": 0, + "languages": [], + "name": "Amalgam", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/EMSL-MSC/amalgam", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This software package implements the algorithm from a paper by Bayati, Kim, and Saberi (first reference below) to generate a uniformly random sample of a graph with a prescribed degree distribution.", + "laborHours": 0, + "languages": [], + "name": "Bayati Kim Saberi random graph sampler", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dgleich/bisquik", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "While an organized source of reference information on PV performance modeling is certainly valuable, there is nothing to match the availability of actual examples of modeling algorithms being used in practice. 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The PV_LIB Toolbox provides more than 30 functions that are sorted into four categories", + "laborHours": 0, + "languages": [], + "name": "PV_LIB Toolbox", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/cwhanse/PVLIB_Python", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Xpetra provides a single interface that allows the use of either Epetra or Tpetra linear algebra libraries from the same source code. Library developers need only learn and use the syntax of Xpetra; the resulting libraries can use either Epetra or Tpetra.", + "laborHours": 0, + "languages": [], + "name": "Xpetra Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MueLu is intended for the research and development of multigrid algorithms used in the solution of sparse linear systems arising from systems of partial differential equations. 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All algorithms and methods in MueLu have been or will be published in the open scientific literature.", + "laborHours": 0, + "languages": [], + "name": "MueLu Multigrid Preconditioning Package", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MiniGhost is a miniapp in the Mantevo project. Using a finite difference method, it mimics the inter-process communication requirements commonly found in applications of this sort. 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ShyLU will be a package in the Trilinos software framework.", + "laborHours": 0, + "languages": [], + "name": "jShyLU Scalable Hybrid Preconditioner and Solver", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "pair_bop is a module for performing energy calculations using the Bond Order Potential (BOP) for use in the parallel molecular dynamics code LAMMPS. The bop pair style computes BOP based upon quantum mechanical incorporating both sigma and pi bondings. By analytically deriving the BOP pair bop from quantum mechanical theory its transferability to different phases can approach that of quantum mechanical methods. This potential is extremely effective at modeling 111-V and II-VI compounds such as GaAs and CdTe. This potential is similar to the original BOP developed by Pettifor and later updated by Murdock et al. and Ward et al.", + "laborHours": 0, + "languages": [], + "name": "Bond order potential module for LAMMPS", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lammps/lammps", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MAT2EXO is a program which translates mesh data from Matlab mat-file format to Exodus II format. This tool is the inverse of the commonly used tool exo2mat which translates Exodus II data to the Matlab mat-file format. These tools provide a means for preprocessing an Exodus II model file or postprocessing an Exodus II results file using Matlab", + "laborHours": 0, + "languages": [], + "name": "Mat2exo", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Dax Toolkit enables the fine-grained concurrency for data analysis and visualization required to drive multi-core processors, many-core GPU accelerators, and emerging architectures for exascale computing. Dax simplifies the design of finely threaded algorithms by characterizing them in per element operations, which we call worklets. Worklets simplify design because they can behave as serial processes without the complications of memory clashes or other race conditions. Yet worklets can be scheduled on a practically unlimited number of threads, thereby making effective utilization of many processing cores. Operations coordinated across elements are encapsulated in a few versatile communicative operations that are adapted to the specifics of computing devices.", + "laborHours": 0, + "languages": [], + "name": "Dax v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Kitware/DaxToolkit", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "The software is a modular framework for controlling data acquisition systems (DAQs) for radiation detectors. Its capabilities include hardware configuration and control as well as data readout and storage. In addition to a generalized extensible framework for building DAQs, the package also includes specific implementations for a number of commercially available hardware devices commonly used in nuclear instrumentation (digitizers, high voltage controllers, etc.).", + "laborHours": 0, + "languages": [], + "name": "SLMod", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/mrSkortch/DCS-SLmod/blob/master/README.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/mrSkortch/DCS-Slmod", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Kokkos Array library implements shared-memory array data structures and parallel task dispatch interfaces for data-parallel computational kernels that are performance-portable to multicore-CPU and manycore-accelerator (e.g., GPGPU) devices.", + "laborHours": 0, + "languages": [], + "name": "Kokkos Array", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "nSIGHTS (n-dimensional Statistical Inverse Graphical Hydraulic Test Simulator) is a comprehensive well test analysis software package. It provides a user-interface, a well test analysis model and many tools to analyze both field and simulated data. The well test analysis model simulates a single-phase, one-dimensional, radial/non-radial flow regime, with a borehole at the center of the modeled flow system. nSIGHTS solves the radially symmetric n-dimensional forward flow problem using a solver based on a graph-theoretic approach. The results of the forward simulation are pressure, and flow rate, given all the input parameters. The parameter estimation portion of nSIGHTS uses a perturbation-based approach to interpret the best-fit well and reservoir parameters, given an observed dataset of pressure and flow rate.", + "laborHours": 0, + "languages": [], + "name": "n-dimensional Statistical Inverse Graphical Hydraulic Test Simulator", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/nsights/nSIGHTS/blob/master/genLib/GenLibAfx.h", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/nsights/nSIGHTS", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The ap command traveres all symlinks in a given file, directory, or executable name to identify the final absolute path. It can print just the final path, each intermediate link along with the symlink chan, and the permissions and ownership of each directory component in the final path. It has functionality similar to \"which\", except that it shows the final path instead of the first path. It is also similar to \"pwd\", but it can provide the absolute path to a relative directory from the current working directory.", + "laborHours": 0, + "languages": [], + "name": "The absolute path command", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/ap/blob/master/LICENSE.TXT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/ap", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Datatype Compare (DTCMP) library provides routines that sort, search, merge, partition, rank, and select items using operations that compare MPI datatypes. Such routines are needed im MPI applications dealing with large distributed latasets, where the amount of data is too large to gather to a single process.", + "laborHours": 0, + "languages": [], + "name": "The Datatype Compare Library v.1.0", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/dtcmp/blob/master/LICENSE.TXT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/hpc/dtcmp", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The mpileaks tool is to be used by MPI application developers to track and report leaked MPI objects, such as requests, groups, and datatypes. This debugging tool is useful as a quality assurance check for MPI applications, or it can be used to identify leaks fatal to long-running MPI applications. It provides an efficient method to report bugs that are otherwise fifficult to identify.", + "laborHours": 0, + "languages": [], + "name": "mpileaks - an MPI opject leak debugging library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/mpileaks/blob/master/LICENSE.TXT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/mpileaks", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "DI-MMAP is a simulator for modeling the performance of next generation non-volatile random access memory technologies (NVRAM) and a high-perfromance memory-map runtime for the Linux operating system. It is implemented as a device driver for the Linux operating system. It will be used by algorithm designers to unserstand the impact of future NVRAM on their algorithms and will be used by application developers for high-performance access to NVRAM storage.", + "laborHours": 0, + "languages": [], + "name": "Data-Intensive Memory-Map simulator and runtime", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://bitbucket.org/vanessen/di-mmap", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "We are seeking a code review of patches against DyninstAPI 8.0. DyninstAPI is an open source binary instrumentation library from the University of Wisconsin and University of Maryland. Our patches port DyninstAPI to the BlueGene/P and BlueGene/Q systems, as well as fix DyninstAPI bugs and implement minor new features in DyninstAPI.", + "laborHours": 0, + "languages": [], + "name": "DyninstAPI Patches", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dyninst/dyninst", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Script to create operating system images in a directory from RPMs using the commands rpm or YUM.", + "laborHours": 0, + "languages": [], + "name": "Kona", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trentdhooge/kona.git", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Light-Weight Group (LWGRP) bibrary provides data structures and collective routines to define and operate on groups of MPI processes. Groups can be created and freed efficiently in O(log N) time space requiring less overhead that constructing full MPI communicators. This facilitates faster development of applications and libraries that need to rapidly create, use, and destroy process groups.", + "laborHours": 0, + "languages": [], + "name": "The Light-Weight Group Library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/lwgrp/blob/master/LICENSE.TXT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/lwgrp", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Rubik is a tool that simplifies the process of creating task mappings for structured applications. 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This allows users to easily map low-dimensional structures such as planes to higher-dimensional structures like cubes to increase the number of links used for routing.", + "laborHours": 0, + "languages": [], + "name": "Rubik", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/rubik/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/rubik", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Give and Take are set of companion utilities that allow a secure transfer of files from one user to another without exposing the files to third parties. 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For these users, files may only be taken from givers who are members of the gt-uid-group where uid is the UNIX id of the limited user.", + "laborHours": 0, + "languages": [], + "name": "Give/Take", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/hpc/give", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Interatomic force and energy calculation subroutine to be used with the molecular dynamics simulation code LAMMPS (Ref a.). The code evaluated the total energy and atomic forces (energy gradient) according to a cubic spline-based variant (Ref b.) of the Modified Embedded Atom Method (MEAM) with a additional Stillinger-Weber (SW) contribution.", + "laborHours": 0, + "languages": [], + "name": "Modified Embedded Atom Method", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lammps/lammps", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Boxfish is a tool for visualizing performance data. 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This allows a user of the visualization tool to quickly see correlations between performance data and network structure, application data, or communication patterns.", + "laborHours": 0, + "languages": [], + "name": "Boxfish", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/boxfish/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/boxfish", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SystemBurn is a tool for creating a synthetic computational load for the purpose of measuring how much power a computer will draw under that type of load. The loads include fundamental library function calls like matrix multiply, memory copies, fourier transforms, bit manipulation, I/O, network packet transfers, and some code contrived to cause the processor to dray more or less power. The code produces some diagnostic and progress output, but the actual measurements would be recorded from the power panels within the computer room.", + "laborHours": 0, + "languages": [], + "name": "SystemBurn", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jlothian/systemburn", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SystemConfidence is a benchmark developed at ORNL which can measure statistical variation in which the user can plot. The portions of the code which manage the collection of the histograms and computing statistics on the histograms were designed with the intent that we could use these functions in other codes.", + "laborHours": 0, + "languages": [], + "name": "SystemConfidence", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jlothian/sysconfidence", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Log files are typically semi-or un-structured. To be useable, they need to be parsed into a standard, structured format. Regex-Stream facilitates parsing text files into structured data (JSON) in streams of data.", + "laborHours": 0, + "languages": [], + "name": "Regex-Stream", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ornl-sava/regex-stream", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "pgarvey@bnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "\"Synchrotron Radiation Workshop\" (SRW) is a physical optics computer code for calculation of detailed characteristics of Synchrotron Radiation (SR) generated by relativistic electrons in magnetic fields of arbitrary configuration and for simulation of the radiation wavefront propagation through optical systems of beamlines. Frequency-domain near-field methods are used for the SR calculation, and the Fourier-optics based approach is generally used for the wavefront propagation simulation. The code enables both fully- and partially-coherent radiation propagation simulations in steady-state and in frequency-/time-dependent regimes. With these features, the code has already proven its utility for a large number of applications in infrared, UV, soft and hard X-ray spectral range, in such important areas as analysis of spectral performances of new synchrotron radiation sources, optimization of user beamlines, development of new optical elements, source and beamline diagnostics, and even complete simulation of SR based experiments. Besides the SR applications, the code can be efficiently used for various simulations involving conventional lasers and other sources. SRW versions interfaced to Python and to IGOR Pro (WaveMetrics), as well as cross-platform library with C API, are available.", + "laborHours": 0, + "languages": [], + "name": "Synchrotron Radiation Workshop (SRW)", + "organization": "Brookhaven National Laboratory (BNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ochubar/SRW/blob/master/COPYRIGHT.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ochubar/SRW", + "status": "Production", + "tags": [ + "DOE CODE", + "Brookhaven National Laboratory (BNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "NV is a visualization tool for exploring vulnerabilities within a network. The data is created with a vulnerability assessment tool, such as Nessus (http://www.tenable.com/products/nessus).", + "laborHours": 0, + "languages": [], + "name": "Nessus Visualization", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ornl-sava/nv", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ASPA is an implementation of an adaptive sampling algorithm [1-3], which is used to reduce the computational expense of computer simulations that couple disparate physical scales. The purpose of ASPA is to encapsulate the algorithms required for adaptive sampling independently from any specific application, so that alternative algorithms and programming models for exascale computers can be investigated more easily.", + "laborHours": 0, + "languages": [], + "name": "Adaptive Sampling Proxy Application", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/exmatex/aspa", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ProxyVPFFT computes the micromechanical reaponse of polycriystalline samples directly from images of their microstructures, usually captured using SEM. [2] ProxyVPFFT is proxy application, or a somplified version of existing software by Ricardo Lebensohn (VPFFT).", + "laborHours": 0, + "languages": [], + "name": "Prozy Visco-plasticity, Fast Fourier Transform", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/exmatex/VPFFT/blob/master/README-license.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/exmatex/vpfft", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "LRIOT is a test bench framework that is designed to generate sophisticated I/O rates that can stress high-performance memory and storage systems, such as non-volatile random access memories (NVRAM)and storage class memory. Furthermore, LRIOT provides the capabilities to mix multiple types of concurrency, namely threading and task parallelism, as well as distributed execution using Message Passing Interface (MPI) libraries. It will be used by algorithm designers to generate access patterns that mimic their application's behavior, and by system designers to test high-performance NVRAM storage.", + "laborHours": 0, + "languages": [], + "name": "Livermore Random I/O Testbench", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://bitbucket.org/vanessen/lriot/src/594efbf7484ed377e0b9e55e6f1bf564b6556546/lriot_license_header_stub.c", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://bitbucket.org/vanessen/lriot", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Qball is a modified version of the open source Qbox first-principles molecular dynamics code which was originally developed at LLNL by Francois Gygi.", + "laborHours": 0, + "languages": [], + "name": "Qbox First-principles Molecular Dynamics (Qball branch, svn release 081", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/qball", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Sponge provides a web interface to Pulp (http://pulpproject.org/) that implements a particular workflow as described in the paper \"Staging Package Deployment via Repository Management\" (http://www.usenix.org/events/lisa11/tech/full_papers/Pierre.pdf). Namely, it implements a process for intensive management of software repositories to apply more deterministic updates to clients of those repositories.", + "laborHours": 0, + "languages": [], + "name": "Sponge", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/stpierre/sponge", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The MPS++ computer code simulates models of strongly correlated quantum lattice systems. The algorithm used is the density-matrix renormalization method formulated in the matrix product states language. These models and methods are used to obtain ground state, dynamic, finite temperature and time evolution properties of the underlying materials that are simulated. These materials are usually one- and quasi-one dimensional strongly correlated electronic systems, such as high temperature superconductors, manganites, and other transition metal oxides. This code is (mostly) an implementation of the paper “The density-matrix renormalization group in the age of matrix product states” by U. Schollwoeck, and references therein, found at http://arxiv.org/abs/1008.3477v2 , and that was also published in Annals of Physics 326,96 (2011).", + "laborHours": 0, + "languages": [], + "name": "MPS++", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/g1257/mpspp", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The INDDGO software package offers a set of tools for finding exact solutions to graph optimization problems via tree decompositions and dynamic programming algorithms. Currently the framework offers serial and parallel (distributed memory) algorithms for finding tree decompositions and solving the maximum weighted independent set problem. The parallel dynamic programming algorithm is implemented on top of the MADNESS task-based runtime.", + "laborHours": 0, + "languages": [], + "name": "Integrated Network Decompositions and Dynamic Programming for Graph Optimization (INDDGO)", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/bdsullivan/INDDGO", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "For testing and demonstration purposes, it is often necessary to replay saved network and log data. This library facilitates replaying these saved data streams. This module will take in a stream of JSON strings, read their specified timestamp field, and output according to the given criteria. This can include restricting output to a certain time range, and/or outputting the items with some delay based on their timestamp.", + "laborHours": 0, + "languages": [], + "name": "Replay-Stream", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ornl-sava/replay-stream", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Many new, high-performance nuclear energy modeling and simulation tools are under development in the United States and many more existing projects are moving to high-performance computing. This shift to state-of-the-art modeling and simulation will not only result in an unprecedented use of computing resources but it will generate extremely large amounts of data in extraordinary detail. Domain scientists will find themselves simultaneously in two positions: managing the complexity of their own problem domain and managing the complexity of a nightmarish scenario of high-performance computational tools. We believe that the computational science community should develop integrated tools for coupling, working with and analyzing data from simulation codes instead of leaving domains scientists and students to fend for themselves and come up with a “working” solution. While many projects offer some set of tools to work with their codes, to launch jobs remotely or to setup input files, most of these tools are rarely integrated in a holistic way to provide an easy, common and high-productivity environment for users. For that matter, most remote jobs are launched on “the machine in the other room,” but that certainly will not work for larger problems that require Leadership Class computing resources found only at U.S. National Laboratories or similar facilities. Overcoming the challenges of launching on these machines and even on public or private “clouds” are left as a challenge to the user.", + "laborHours": 0, + "languages": [], + "name": "The NEAMS Integrated Computational Environment (NiCE)", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/eclipse/ice/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/eclipse/ice", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Enables applications to emit debug log information into an output file and provides developers with a way to visually structure the output to make it easier for them to navigate it to understand the sources of application errors.", + "laborHours": 0, + "languages": [], + "name": "dbglog", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/bronevet/dbglog", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "CRUISE implements a user-space file system that stores data in main memory and transparently spills over to other storage, like local flash memory or the parallel file system, as needed. CRUISE also exposes file contents fo remote direct memory access, allowing external tools to copy files to the parallel file system in the background with reduced CPU interruption.", + "laborHours": 0, + "languages": [], + "name": "Checkpoint-Restart in User Space", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/cruise/blob/master/COPYRIGHT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/cruise", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This client-side web app tracks the amount of time spent on arbitrary tasks. It allosw the creation of an unlimited number of arbitrarily named tasks ans via simple interactions, tracks the amount of time spent working on the drfined tasks.", + "laborHours": 0, + "languages": [], + "name": "Task Time Tracker", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/Task-Time-Tracker", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SW4 is a program for simulating seismic wave propagation on parallel computers. SW4 colves the seismic wave equations in Cartesian corrdinates. It is therefore appropriate for regional simulations, where the curvature of the earth can be neglected. SW4 implements a free surface boundary condition on a realistic topography, absorbing super-grid conditions on the far-field boundaries, and a kinematic source model consisting of point force and/or point moment tensor source terms. SW4 supports a fully 3-D heterogeneous material model that can be specified in several formats. SW4 can output synthetic seismograms in an ASCII test format, or in the SAC finary format. It can also present simulation information as GMT scripts, whixh can be used to create annotated maps. 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Minimega also includes tools for simple cluster management, as well as tools for creating Linux based virtual machine images.", + "laborHours": 0, + "languages": [], + "name": "minimega", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sandia-minimega/minimega", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "New to version 2.0 of Albany is the development of equations sets for specific application areas. These are independent research and development efforts that have chosen to use Albany as their software deployment vehicle. 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Thorough analysis of these logs is often required for root cause analysis of problems and tuning for greatest performance. This \"app\" for the \"Gnawts\" log analysis software (http://www.gnawts.com) facilitates faster and deeper insights into HPC system logs.", + "laborHours": 0, + "languages": [], + "name": "Gnawts", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/hpc/gnawts", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "In the drive to make exascale computing a reality, significant effort is being invested in efficiently implementing and improving current numerical algorithms on various vendors' newest testbeds acquired by DOE's Advanced Simulation and Computing program. Porting large-scale applications to these testbeds is prohibitive in labor and time. Instead, it is more advantageous to run small-scale programs that capture the essence of the large-scale application and that can be more easily modified, improved, and distributed to other collaborators focused on hardware/software co-design. These small-scale applications are called miniapps are are being developed under the aegis of the Mantevo project.", + "laborHours": 0, + "languages": [], + "name": "miniSMAC2D", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Mantevo/miniSMAC", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This particular consortium implementation of the software integration infrastructure will, in large part, refactor portions of the Rocstar multiphysics infrastructure. Development of this infrastructure originated at the University of Illinois DOE ASCI Center for Simulation of Advanced Rockets (CSAR) to support the center's massively parallel multiphysics simulation application, Rocstar, and has continued at IllinoisRocstar, a small company formed near the end of the University-based program. IllinoisRocstar is now licensing these new developments as free, open source, in hopes to help improve their own and others' access to infrastructure which can be readily utilized in developing coupled or composite software systems; with particular attention to more rapid production and utilization of multiphysics applications in the HPC environment. There are two major pieces to the consortium implementation, the Application Component Toolkit (ACT), and the Multiphysics Application Coupling Toolkit (MPACT). The current development focus is the ACT, which is (will be) the substrate for MPACT. The ACT itself is built up from the components described in the technical approach. In particular, the ACT has the following major components: 1.The Component Object Manager (COM): The COM package provides encapsulation of user applications, and their data. COM also provides the inter-component function call mechanism. 2.The System Integration Manager (SIM): The SIM package provides constructs and mechanisms for orchestrating composite systems of multiply integrated pieces.", + "laborHours": 0, + "languages": [], + "name": "Multiphysics Application Coupling Toolkit", + "organization": "CONTR", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/IllinoisRocstar/IMPACT", + "status": "Production", + "tags": [ + "DOE CODE" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Framework for Network Co-Simulation (FNCS) uses a federated approach to integrate simulations which may have differing time scales. Special consideration is given to integration with a communication network simulation such that inter-simulation messages may be optionally routed through and delayed by such a simulation. In addition, FNCS uses novel time synchronization algorithms to accelerate co-simulation including the application of speculative multithreading. FNCS accomplishes all of these improvements with minimal end user intervention. Simulations can be integrated using FNCS while maintaining their original model input files simply by linking with the FNCS library and making appropriate calls into the FNCS API.", + "laborHours": 0, + "languages": [], + "name": "Framework for Network Co-Simulation", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/FNCS/fncs/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/FNCS/fncs", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This library is an implementation of the Sparse Approximate Matrix Multiplication (SpAMM) algorithm introduced. It provides a matrix data type, and an approximate matrix product, which exhibits linear scaling computational complexity for matrices with decay. The product error and the performance of the multiply can be tuned by choosing an appropriate tolerance. The library can be compiled for serial execution or parallel execution on shared memory systems with an OpenMP capable compiler", + "laborHours": 0, + "languages": [], + "name": "spammpack, Version 2013-06-18", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/FreeON/spammpack", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "christopher.kowalczyk@inl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Multiphysics Object Oriented Simulation Environment (MOOSE) software library developed at Idaho National Laboratory is a tool. MOOSE, like other tools, doesn't actually complete a task. Instead, MOOSE seeks to reduce the effort required to create engineering simulation applications. MOOSE itself is a software library: a blank canvas upon which you write equations and then MOOSE can help you solve them. MOOSE is comparable to a spreadsheet application. A spreadsheet, by itself, doesn't do anything. Only once equations are entered into it will a spreadsheet application compute anything. Such is the same for MOOSE. An engineer or scientist can utilize the equation solvers within MOOSE to solve equations related to their area of study. For instance, a geomechanical scientist can input equations related to water flow in underground reservoirs and MOOSE can solve those equations to give the scientist an idea of how water could move over time. An engineer might input equations related to the forces in steel beams in order to understand the load bearing capacity of a bridge. Because MOOSE is a blank canvas it can be useful in many scientific and engineering pursuits.", + "laborHours": 0, + "languages": [], + "name": "Multiphysics Object Oriented Simulation Environment", + "organization": "Idaho National Laboratory (INL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/idaholab/moose", + "status": "Production", + "tags": [ + "DOE CODE", + "Idaho National Laboratory (INL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GridOPTICS Software System (GOSS) is a middleware that facilitates creation of new, modular and flexible operational and planning platforms that can meet the challenges of the next generation power grid. GOSS enables Department of Energy, power system utilities, and vendors to build better tools faster. GOSS makes it possible to integrate Future Power Grid Initiative software products/prototypes into existing power grid software systems, including the PNNL PowerNet and EIOC environments. GOSS is designed to allow power grid applications developed for different underlying software platforms installed in different utilities to communicate with ease. This can be done in compliance with existing security and data sharing policies between the utilities. GOSS not only supports one-to-one data transfer between applications, but also publisher/subscriber scheme. To support interoperability requirements of future EMS, GOSS is designed for CIM compliance. In addition to this, it supports authentication and authorization capabilities to protect the system from cyber threats. In summary, the contributions of the GOSS middleware are as follows: A platform to support future EMS development. A middleware that promotes interoperability between power grid applications. A distributed architecture that separates data sources from power grid applications. Support for data exchange with either one-to-one or publisher/subscriber interfaces. An authentication and authorization scheme for limiting the access to data between utilities.", + "laborHours": 0, + "languages": [], + "name": "GridOPTICS Software System", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/craig8/GOSS", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Support Vector Machines (SVM) is a popular machine learning technique, which has been applied to a wide range of domains such as science, finance, and social networks for supervised learning. MaTEx undertakes the challenge of designing a scalable parallel SVM training algorithm for large scale systems, which includes commodity multi-core machines, tightly connected supercomputers and cloud computing systems. Several techniques are proposed for improved speed and memory space usage including adaptive and aggressive elimination of samples for faster convergence , and sparse format representation of data samples. Several heuristics for earliest possible to lazy elimination of non-contributing samples are considered in MaTEx. In many cases, where an early sample elimination might result in a false positive, low overhead mechanisms for reconstruction of key data structures are proposed. The proposed algorithm and heuristics are implemented and evaluated on various publicly available datasets", + "laborHours": 0, + "languages": [], + "name": "Machine Learning Toolkit for Extreme Scale", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/matex-org/matex/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/matex-org/matex/", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Modern processors offer a wide range of control and measurement features. While those are traditionally accessed through libraries like PAPI, some newer features no longer follow the traditional model of counters that can be used to only read the state of the processor. For example, Precise Event Based Sampling (PEBS) can generate records that requires a kernel memory for storage. Additionally, new features like power capping and thermal control require similar new access methods. All of these features are ultimately controlled through Model Specific Registers (MSRs). We therefore need new mechanisms to make such features available to tools and ultimately to the user. libMSR provides a convenient interface to access MSRs and to allow tools to utilize their full functionality.", + "laborHours": 0, + "languages": [], + "name": "libMSR library and msr-safe kernel module", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/libmsr", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This package inplements a Lua interface to linux containers system calls, such as unshare(2) and chroot(2)", + "laborHours": 0, + "languages": [], + "name": "Lua modules for linux containers", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/grondo/lua-containers", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This package implements a Lua interface to the LLNL hostlist routines, and includes a hostlist command oine utility based on the lua hostlist library.", + "laborHours": 0, + "languages": [], + "name": "Luna Hostlist Library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/grondo/lua-hostlist", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "AutomaDeD is a tool that automatically diagnoses performance and correctness faults in MPI applications. It creates time and control-flow models of processes in an MPI program, and when a failure occus, these models are analyzed probabilistically to find the origin of the failure. The output of the tool is MPI processes ranked by the abnormality degree and regions of code where faults are first manifested. The granularity of code region is an MPI call or a computation region between two MPI calls.", + "laborHours": 0, + "languages": [], + "name": "Automata-based Debugging for Dissimilar Parallel Tasks", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/automaDeD", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The \"Callpath Library\" is a software abstraction layer over a number of stack tracing utilities. It allows tool develoopers to conveniently represent and mNipulate call paths gathered fro U. Wisconsin's Stackwalker API and GNU Backtrace.", + "laborHours": 0, + "languages": [], + "name": "Callpath Library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.1", + "name": "GPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/callpath", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "perf-dump is a library for dumping performance data in much the same way physics simulations dump checkpoints. It records per-process, per-timestep, per-phase, and per-thread performance counter data and dumps this large data periodically into an HDF5 data file.", + "laborHours": 0, + "languages": [], + "name": "perf-dump", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.1", + "name": "GPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/perf-dump", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2018-05-30" + }, + "description": "The HPC software ecosystem is growing larger and more complex, but software distribution mechanisms have not kept up with this trend. Tools, Libraries, and applications need to run on multiple platforms and build with multiple compliers. Increasingly, packages leverage common software components, and building any one component requires building all of its dependencies. In HPC environments, ABI-incompatible interfaces (likeMPI), binary-incompatible compilers, and cross-compiled environments converge to make the build process a combinatoric nightmare. This obstacle deters many users from adopting useful tools, and others waste countless hours building and rebuilding tools. Many package managers exist to solve these problems for typical desktop environments, but none suits the unique needs of supercomputing facilities or users. To address these problems, we have Spack, a package manager that eases the task of managing software for end-users, across multiple platforms, package versions, compilers, and ABI incompatibilities.", + "laborHours": 0, + "languages": [], + "name": "Spack: the Supercomputing Package Manager", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/spack/spack", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Fast Global File Status (FGFS) is a system software package that implimints a scalable mechanism to retrieve file information, such as its degree of distribution or replication and consistency.", + "laborHours": 0, + "languages": [], + "name": "Fast Global File Status", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/fastglobalfilestatus", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MPI_T is an interface for tools introduced in the 3.0 version of MPI. The interface provides mechanisms for tools to access and set performance and control variables that are exposed by an MPI implementation. We have developed an MPI_T tool suite to provide a first set of tools exploiting the new interface and to get tool writers started on the path to more sophisticated support.", + "laborHours": 0, + "languages": [], + "name": "The LLNL MPI_Tool Suite", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.1", + "name": "GPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/mpi-tools", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "UPC++ is a Partitioned Global Address Space (PGAS) extension for C++, with three main objectives: 1) to provide an object-oriented PGAS programming model in the context of the popular C++ language; 2) to add useful parallel programming idioms unavailable in UPC, such as asynchronous remote function invocation and multidimensional arrays, to support complex scientific applications; 3) to offer an easy on-ramp to PGAS programming through interoperability with other existing parallel programming systems (e.g., MPI, OpenMP, CUDA). UPC++ includes two main features beyond UPC: 1) One of the major limitations of UPC in the context of DOE application is the relatively weak notion of multidimensional arrays, which it inherited from C. To remedy this problem in UPC++, we included a multidimensional domain and array library based on that of Titanium. Titanium's library is similar to Chapel's dense and strided domains, as both were inspired by the dense and strided regions and arrays in ZPL. 2) Another feature provided by UPC++ but not by UPC is remote function invocation, which is inspired by Phalanx, X10, Habanero-C, and C++11. The user may start an asynchronous remote function invocation with the following syntax: \"async(place)(function, args...);\". UPC++ provides two programming constructs for specifying dynamic dependencies among tasks: 1) event-driven execution as in Phalanx and Habanero-C; 2) finish-async as in X10. We implemented UPC++ with a \"compiler-free\" approach using C++ templates and runtime libraries. The UPC++ front-end consists of a set of C++ header files that enables the C++ compiler to \"translate\" UPC++ features in a user program to runtime library calls. In particular, we use templates and operator overloading to customize the behavior of UPC++ types.", + "laborHours": 0, + "languages": [], + "name": "UPC++", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://bitbucket.org/upcxx/upcxx/src/0863f5d06029fedf5c8cce713c0e68c9af49a5b9/LICENSE.txt?at=master&fileviewer=file-view-default", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://bitbucket.org/upcxx/upcxx/src", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ] + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The SEED platform is expected to be a building energy performance data management tool that provides federal, state and local governments, building owners and operators with an easy, flexible and cost-effective method to collect information about groups of buildings, oversee compliance with energy disclosure laws and demonstrate the economic and environmental benefits of energy efficiency. It will allow users to leverage a local application to manage data disclosure and large data sets without the IT investment of developing custom applications. The first users of SEED will be agencies that need to collect, store, and report/share large data sets generated by benchmarking, energy auditing, retro-commissioning or retrofitting of many buildings. Similarly, building owners and operators will use SEED to manage their own energy data in a common format and centralized location. SEED users will also control the disclosure of their information for compliance requirements, recognition programs such as ENERGY STAR, or data sharing with the Buildings Performance Database and/or other third parties at their discretion.", + "laborHours": 0, + "languages": [], + "name": "Standard Energy Efficiency Data Platform", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/SEED-platform/seed/blob/develop/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/SEED-platform/seed/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Hone sensors are packet-process correlation engines that log the relationships between applications and the communications they are responsible for. Hone sensors are available for a variety of platforms including Linux, Windows, and MacOSX. Hone sensors are designed to help analysts understand the meaning of communications on a deeper level by associating the origin or destination process to the communication. They do this by tracing communications on a per-packet basis, through the kernel of the operating system to determine their ultimate source/destination on the monitored machine.", + "laborHours": 0, + "languages": [], + "name": "The Open Host Network Packet Process Correlator for Windows", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/HoneProject/Windows-Sensor/blob/master/License.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/HoneProject/Windows-Sensor", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The ADARA software is a collection of programs which gather neutron scattering data from multiple detector banks, multiplex the data into a single stream and distribute that stream to analysis, reduction and translation utilities in real-time.", + "laborHours": 0, + "languages": [], + "name": "ADARA", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ADARA-Neutrons/adara", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Set of scripts (Python and Bash) to help users configure, run, and benchmark Hadoop clusters on ORNL computing infrastructure.", + "laborHours": 0, + "languages": [], + "name": "Spot-Hadoop", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jhorey/SpotHadoop", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Data reduction software for the Oak Ridge National Laboratory Spallation Neutron Source's Magnetism Reflectometer beam line 4A, used to extract reflectivity, off-specular and GISANS scattering from raw data in NeXus file format. The package consists of a Python library for the extraction and a Qt4 based graphical user interface to work with the data.", + "laborHours": 0, + "languages": [], + "name": "QuickNXS", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/aglavic/quicknxs", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Chisel is a new open-source hardware construction language developed at UC Berkeley that supports advanced hardware design using highly parameterized generators and layered domain-specific hardware languages. Chisel is embedded in the Scala programming language, which raises the level of hardware design abstraction by providing concepts including object orientation, functional programming, parameterized types, and type inference. From the same source, Chisel can generate a high-speed C++-based cycle-accurate software simulator, or low-level Verilog designed to pass on to standard ASIC or FPGA tools for synthesis and place and route.", + "laborHours": 0, + "languages": [], + "name": "Constructing Hardware in a Scale Embedded Language", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ucb-bar/chisel/blob/master/src/LICENSE.TXT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ucb-bar/chisel/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Recent advancements in technology scaling have shown a trend towards greater integration with large-scale chips containing thousands of processors connected to memories and other I/O devices using non-trivial network topologies. Software simulation proves insufficient to study the tradeoffs in such complex systems due to slow execution time, whereas hardware RTL development is too time-consuming. We present OpenSoC Fabric, an on-chip network generation infrastructure which aims to provide a parameterizable and powerful on-chip network generator for evaluating future high performance computing architectures based on SoC technology. OpenSoC Fabric leverages a new hardware DSL, Chisel, which contains powerful abstractions provided by its base language, Scala, and generates both software (C++) and hardware (Verilog) models from a single code base. The OpenSoC Fabric2 infrastructure is modeled after existing state-of-the-art simulators, offers large and powerful collections of configuration options, and follows object-oriented design and functional programming to make functionality extension as easy as possible.", + "laborHours": 0, + "languages": [], + "name": "OpenSoC Fabric", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LBL-CoDEx/OpenSoCFabric/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LBL-CoDEx/OpenSoCFabric", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kindrew@jlab.org" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This library provides a library containing highly optimized Wilson-Dslash, Wilson Clover operator and Krylov subspace solvers for Lattice QCD simulations. The library is targeted at Intel(R) Xeon Phi(tm), and Intel(R) Xeon(tm) processors.", + "laborHours": 0, + "languages": [], + "name": "QCD For Intel(R) Xeon Phi(tm) and Xeon(tm) processors", + "organization": "Thomas Jefferson National Accelerator Facility (TJNAF)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/JeffersonLab/qphix/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/JeffersonLab/qphix.git", + "status": "Production", + "tags": [ + "DOE CODE", + "Thomas Jefferson National Accelerator Facility (TJNAF)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A series of software programs that enables students to progress from completely unsecured control of devices to control that protects network commands with authentication, integrity and confidentiality. The working example provided is for turning LED lights on and off on a Raspberry Pi computer.", + "laborHours": 0, + "languages": [], + "name": "CyPhyTown", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/PNNLgov/cyPhyTown/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNLgov/cyPhyTown", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "\"The soft costs of solar — costs not associated with hardware — remain stubbornly high. Among the biggest soft costs are those associated with inefficiencies in local permitting and inspection. A study by the National Renewable Energy Laboratory and Lawrence Berkeley National Laboratory estimates that these costs add an average of $0.22/W per residential installation. This project helps reduce non-hardware/balance of system (BOS) costs by creating and maintaining a free and available site of permitting requirements and solar system verification software that installers can use to reduce time, capital, and resource investments in tracking permitting requirements. Software tools to identify best permitting practices can enable government stakeholders to optimize their permitting process and remove superfluous costs and requirements. Like \"\"a Wikipedia for solar permitting\"\", users can add, edit, delete, and update information for a given jurisdiction. We incentivize this crowdsourcing approach by recognizing users for their contributions in the form of SEO benefits to their company or organization by linking back to users' websites.\"", + "laborHours": 0, + "languages": [], + "name": "The National Solar Permitting Database", + "organization": "CONTR", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/solarpermit/solarpermit/", + "status": "Production", + "tags": [ + "DOE CODE" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "procmon performs large-scale monitoring, data collection, and analysis of user processes running on Linux systems. It is intended to be used to aid in performing an automated workload analysis of very large scale systems, but may also be useful for live monitoring of the running processes on large scale systems.", + "laborHours": 0, + "languages": [], + "name": "procmon", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://bitbucket.org/berkeleylab/nersc-procmon/src/c6e67d63e7c9c24f85a46b6d8965b8c615097edc/LICENSE?at=master&fileviewer=file-view-default", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://bitbucket.org/berkeleylab/nersc-procmon", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ] + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "F3D is written in OpenCL, so it achieve[sic] platform-portable parallelism on modern mutli-core CPUs and many-core GPUs. The interface and mechanims to access F3D core are written in Java as a plugin for Fiji/ImageJ to deliver several key image-processing algorithms necessary to remove artifacts from micro-tomography data. The algorithms consist of data parallel aware filters that can efficiently utilizes[sic] resources and can work on out of core datasets and scale efficiently across multiple accelerators. Optimizing for data parallel filters, streaming out of core datasets, and efficient resource and memory and data managements over complex execution sequence of filters greatly expedites any scientific workflow with image processing requirements. F3D performs several different types of 3D image processing operations, such as non-linear filtering using bilateral filtering and/or median filtering and/or morphological operators (MM). F3D gray-level MM operators are one-pass constant time methods that can perform morphological transformations with a line-structuring element oriented in discrete directions. Additionally, MM operators can be applied to gray-scale images, and consist of two parts: (a) a reference shape or structuring element, which is translated over the image, and (b) a mechanism, or operation, that defines the comparisons to be performed between the image and the structuring element. This tool provides a critical component within many complex pipelines such as those for performing automated segmentation of image stacks. F3D is also called a \"descendent\" of Quant-CT, another software we developed in the past. These two modules are to be integrated in a next version. Further details were reported in: D.M. Ushizima, T. Perciano, H. Krishnan, B. Loring, H. Bale, D. Parkinson, and J. Sethian. Structure recognition from high-resolution images of ceramic composites. IEEE International Conference on Big Data, October 2014.", + "laborHours": 0, + "languages": [], + "name": "F3D Image Processing and Analysis for Many - and Multi-core Platforms", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/CameraIA/F3D/blob/master/License.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/CameraIA/F3D/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This Drupal metadata and documents capture and management system is a repository, used for maintenance of metadata which describe resources contributed to the AASG State Geothermal Data System. The repository also provides an archive for files that are not hosted by the agency contributing the resource. Data from all 50 state geological surveys is represented here, and is contributed in turn to the National Geothermal Data System.", + "laborHours": 0, + "languages": [], + "name": "AASG State Geothermal Data Repository for the National Geothermal Data System.", + "organization": "CONTR", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/usgin/metadata-repository", + "status": "Production", + "tags": [ + "DOE CODE" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This is an adaptation of the pre-existing Scimark benchmark code to a variety of Python and Lua implementations. 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It provides a suite of tools to simplify and configure branch based development, integration with a project's testing suite, and integration with the Atlassian Stash repository hosting tool.", + "laborHours": 0, + "languages": [], + "name": "Git Replacement for the", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/llnl/GRAPE", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Hardware advancements such as Intel's PEBS and AMD's IBS, as well as software developments such as the perf_event API in Linux have made available the acquisition of memory access samples with performance information. 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ZFP also has variable-rate fixed-precision and fixed-accuracy modes, which allow the user to specify a tolerance on the relative or absolute error.", + "laborHours": 0, + "languages": [], + "name": "Fixed-rate compressed floating-point arrays", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/zfp/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/ZFP", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Large-scale systems like Sequoia allow running small numbers of very large (1M+ process) jobs, but their resource managers and schedulers do not allow large numbers of small (4, 8, 16, etc.) process jobs to run efficiently. Cram is a tool that allows users to launch many small MPI jobs within one large partition, and to overcome the limitations of current resource management software for large ensembles of jobs.", + "laborHours": 0, + "languages": [], + "name": "Cram", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/scalability-llnl/cram", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "dkrakowski@anl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "OpenSHMEM is a community effort to unifyt and standardize the SHMEM programming model. MPI (Message Passing Interface) is a well-known community standard for parallel programming using distributed memory. The most recen t release of MPI, version 3.0, was designed in part to support programming models like SHMEM.OSHMPI is an implementation of the OpenSHMEM standard using MPI-3 for the Linux operating system. It is the first implementation of SHMEM over MPI one-sided communication and has the potential to be widely adopted due to the portability and widely availability of Linux and MPI-3. OSHMPI has been tested on a variety of systems and implementations of MPI-3, includingInfiniBand clusters using MVAPICH2 and SGI shared-memory supercomputers using MPICH. Current support is limited to Linux but may be extended to Apple OSX if there is sufficient interest. The code is opensource via https://github.com/jeffhammond/oshmpi", + "laborHours": 0, + "languages": [], + "name": "OpenSHMEM over MPI-3", + "organization": "Argonne National Laboratory (ANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jeffhammond/oshmpi", + "status": "Production", + "tags": [ + "DOE CODE", + "Argonne National Laboratory (ANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This program is a graphical user interface for measuring and performing inter-active analysis of physical unclonable functions (PUFs). It is intended for demonstration and education purposes. See license.txt for license details. The program features a PUF visualization that demonstrates how signatures differ between PUFs and how they exhibit noise over repeated measurements. A similarity scoreboard shows the user how close the current measurement is to the closest chip signatures in the database. Other metrics such as average noise and inter-chip Hamming distances are presented to the user. Randomness tests published in NIST SP 800-22 can be computed and displayed. Noise and inter-chip histograms for the sample of PUFs and repeated PUF measurements can be drawn.", + "laborHours": 0, + "languages": [], + "name": "Sandia PUF Analysis Tool", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sandialabs/spat", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Domi (Greek for \"structure\") is a Trilinos package that provides support for multi-dimensional data arrays distributed over multiple processors of a high performance computing system. The software supports data arrays of arbitrary number of dimensions mapped to a multi-dimensional grid of processors. Domi provides local access to the data, as well as the ability to compute global quantities such as norms, maxima and minima. Data arrays can be constructed with boundary and communication padding, necessary for finite difference algorithms, and provides high-level methods for communicating data between processors to update these buffers. The distributed maps and vectors in Domi can be converted to the equivalent data structures in Epetra and Tpetra (both of which assume unstructured data), using view semantics when appropriate, for use with other Trilinos solvers.", + "laborHours": 0, + "languages": [], + "name": "Domi", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/domi/Copyright.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The software serves two purposes. The first purpose of the software is to prototype the Sandia High Performance Computing Power Application Programming Interface Specification effort. The specification can be found at http://powerapi.sandia.gov . Prototypes of the specification were developed in parallel with the development of the specification. Release of the prototype will be instructive to anyone who intends to implement the specification. More specifically, our vendor collaborators will benefit from the availability of the prototype. The second is in direct support of the PowerInsight power measurement device, which was co-developed with Penguin Computing. The software provides a cluster wide measurement capability enabled by the PowerInsight device. The software can be used by anyone who purchases a PowerInsight device. The software will allow the user to easily collect power and energy information of a node that is instrumented with PowerInsight. The software can also be used as an example prototype implementation of the High Performance Computing Power Application Programming Interface Specification.", + "laborHours": 0, + "languages": [], + "name": "Power API Prototype", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pwrapi/pwrapi-ref", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Percept software package is a collection of libraries and executables that provide tools for verifying computer simulations of engineering components and systems. Percept is useful for simulations using the finite element or finite volume methods on unstructured meshes. Percept includes API's for adaptive mesh refinement, geometry representation, the method of manufactured solutions, analysis of convergence including the convergence of vibrational eigenmodes, and metrics for analyzing the difference between fields represented on two different overlapping unstructured grids.", + "laborHours": 0, + "languages": [], + "name": "Percept", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "WEC-Sim (Wave Energy Converter SIMulator) is a code developed by Sandia National Laboratories and the National Renewable Energy Laboratory to model wave energy converters (WECs) when they are subject to operational waves. The code is a time-domain modeling tool developed in MATLAB/Simulink using the multi-body dynamics solver SimMechanics. In WEC-Sim, WECs are modeled by connecting rigid bodies to one another with joint or constraint blocks from the WEC-Sim library. WEC-Sim is a publicly available, open-source code to model WECs.", + "laborHours": 0, + "languages": [], + "name": "WEC-Sim (Wave Energy Converter - SIMulator)", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/WEC-Sim/WEC-Sim", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This software provides implementations of fast matrix multiplication algorithms. These algorithms perform fewer floating point operations than the classical cubic algorithm. The software uses code generation to automatically implement the fast algorithms based on high-level descriptions. The code serves two general purposes. The first is to demonstrate that these fast algorithms can out-perform vendor matrix multiplication algorithms for modest problem sizes on a single machine. The second is to rapidly prototype many variations of fast matrix multiplication algorithms to encourage future research in this area. The implementations target sequential and shared memory parallel execution.", + "laborHours": 0, + "languages": [], + "name": "fast-matmul", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/arbenson/fast-matmul", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SCOT cyber security team enhancement tool that coordinates activities, captures knowledge, and serves as a platform to automate time-consuming tasks that a cyber security team needs to perform in its daily operations.", + "laborHours": 0, + "languages": [], + "name": "Sandia Cyber Omni Tracker", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/sandialabs/scot/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sandialabs/scot", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Oxide is a modular framework for feature extraction and analysis of executable files. Oxide is useful in a variety of reverse engineering and categorization tasks relating to executable content.", + "laborHours": 0, + "languages": [], + "name": "Oxide", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/SamuelMulder/oxide/blob/master/shell.py", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/SamuelMulder/oxide", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Doubly Distributed Transactions (D2T) offers a technique for managing operations from a set of parallel clients with a collection of distributed services. It detects and manages faults. Example code with a test harness is also provided", + "laborHours": 0, + "languages": [], + "name": "Doubly Distributed Transactions", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gflofst/d2t", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Toyplot integrates high quality interactive, animated plotting capabilities into web browsers using the Python programming language.", + "laborHours": 0, + "languages": [], + "name": "toyplot", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sandialabs/toyplot", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Pike is a software library for coupling and solving multiphysics applications. It provides basic interfaces and utilities for performing code-to-code coupling. It provides simple \"black-box\" Picard iteration methods for solving the coupled system of equations including Jacobi and Gauss-Seidel solvers. Pike was developed originally to couple neutronics and thermal fluids codes to simulate a light water nuclear reactor for the Consortium for Simulation of Light-water Reactors (CASL) DOE Energy Innovation Hub. The Pike library contains no physics and just provides interfaces and utilities for coupling codes. It will be released open source under a BSD license as part of the Trilinos solver framework (trilinos.org) which is also BSD. 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In order to better define regions of similarity among related protein structures, it is useful to detect the residue-residue correspondences among a set of pairwise structure alignments. Few codes exist for constructing a one-to-many, multiple sequence alignment derived from a set of structure alignments, and we perceived a need for creating a new tool for combing pairwise structure alignments that would allow for insertion of gaps in the reference structure.", + "laborHours": 0, + "languages": [], + "name": "Combining Multiple Pairwise Structure-based Alignments", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/carolzhou/Protein", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "IBTopo is a set of perl modules and scripts that enable one to determine the network topology of an Infiniband network.", + "laborHours": 0, + "languages": [], + "name": "IBTopo", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/ibtopo/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/hpc/ibtopo", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ParFELAG is a parallel distributed memory C++ library for numerical upscaling of finite element discretizations. It provides optimal complesity algorithms ro build multilevel hierarchies and solvers that can be used for solving a wide class of partial differential equations (elliptic, hyperbolic, saddle point problems) on general unstructured mesh (under the assumption that the topology of the agglomerated entities is correct). Additionally, a novel multilevel solver for saddle point problems with divergence constraint is implemented.", + "laborHours": 0, + "languages": [], + "name": "Parallel Element Agglomeration Algebraic Multigrid and Upscaling Library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/parelag", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Compare Gene Profiles (CGP) performs pairwise gene content comparisons among a relatively large set of related bacterial genomes. CGP performs pairwise BLAST among gene calls from a set of input genome and associated annotation files, and combines the results to generate lists of common genes, unique genes, homologs, and genes from each genome that differ substantially in length from corresponding genes in the other genomes. CGP is implemented in Python and runs in a Linux environment in serial or parallel mode.", + "laborHours": 0, + "languages": [], + "name": "Compare Gene Profiles", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/carolzhou/Genome", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Qspp is an agent-based stochastic simulation model of the Poliovirus Sabin-to-Mahoney transition. This code simulates a cell-to-cell model of Poliovirus replication. The model tracks genotypes (virus genomes) as they are replicated in cells, and as the cells burst and release particles into the medium of a culture dish. An inoculum is then taken from the pool of virions and is used to inoculate cells on a new dish. This process repeats. The Sabin genotype comprises the initial inoculum. Nucleotide positions that match the Sabin1 (vaccine strain) and Mahoney (wild type) genotypes, as well as the neurovirulent phenotype (from the literature) are enumerated as constants.", + "laborHours": 0, + "languages": [], + "name": "Sabin-to-Mahoney Transition Model of Quasispecies Replication", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/carolzhou/Virus", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ROL provides interfaces to and implementations of algorithms for gradient-based unconstrained and constrained optimization. ROL can be used to optimize the response of any client simulation code that evaluates scalar-valued response functions. If the client code can provide gradient information for the response function, ROL will take advantage of it, resulting in faster runtimes. ROL's interfaces are matrix-free, in other words ROL only uses evaluations of scalar-valued and vector-valued functions. ROL can be used to solve optimal design problems and inverse problems based on a variety of simulation software.", + "laborHours": 0, + "languages": [], + "name": "Rapid Optimization Library", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/rol/Copyright.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "dkrakowski@anl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Python-ARM Radar Toolkit (Py-ART) is a collection of radar quality control and retrieval codes which all work on two unifying Python objects: the PyRadar and PyGrid objects. By building ingests to several popular radar formats and then abstracting the interface Py-ART greatly simplifies data processing over several other available utilities. In addition Py-ART makes use of Numpy arrays as its primary storage mechanism enabling use of existing and extensive community software tools.", + "laborHours": 0, + "languages": [], + "name": "Python-ARM Radar Toolkit", + "organization": "Argonne National Laboratory (ANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ARM-DOE/pyart", + "status": "Production", + "tags": [ + "DOE CODE", + "Argonne National Laboratory (ANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This is a general purpose math library implementing basic tensor algebra operations on NVidia GPU accelerators. This software is a tensor algebra library that can perform basic tensor algebra operations, including tensor contractions, tensor products, tensor additions, etc., on NVidia GPU accelerators, asynchronously with respect to the CPU host. It supports a simultaneous use of multiple NVidia GPUs. Each asynchronous API function returns a handle which can later be used for querying the completion of the corresponding tensor algebra operation on a specific GPU. The tensors participating in a particular tensor operation are assumed to be stored in local RAM of a node or GPU RAM. The main research area where this library can be utilized is the quantum many-body theory (e.g., in electronic structure theory).", + "laborHours": 0, + "languages": [], + "name": "Tensor Algebra Library for NVidia Graphics Processing Units", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/DmitryLyakh/TAL_SH", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SHOMS is a micro benchmark designed to test vendor implementations of the OpenSHMEM 1.1 spec. It seeks to test both bandwidth and latencies for small and large messages.", + "laborHours": 0, + "languages": [], + "name": "SHOMS", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/MattBBaker/shoms", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "STONIX is a program for configuring UNIX and Linux computer operating systems. It applies configurations based on the guidance from publicly accessible resources such as: NSA Guides, DISA STIGs, the Center for Internet Security (CIS), USGCB and vendor security documentation. STONIX is written in the Python programming language using the QT4 and PyQT4 libraries to provide a GUI. The code is designed to be easily extensible and customizable.", + "laborHours": 0, + "languages": [], + "name": "Stonix, Version 0.x", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/CSD-Public/stonix", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "brulilo is a Python package for building and evolving thermonuclear reaction networks, such as those used in astrophysical explosion calculations. It is very much a current work in progress, and much of the intended functionality is still under development. The main goal of brulilo is an easy-to-use code for quick calculations or post-processing, as well as a learning tool to test various implementations of solvers on both CPUs and GPUs. Currently, brulilo parses an input text file that specifies the reactions to be included in the network. The notation of the inputs are in the typical astrophysical notation; i.e. hydrogen burning to deuterium in the sun, \"p + p + e --> d + neutrino\", is given as \"p(p,)d.\" Each reaction is added to a list comprising the reaction network, and once completed, the network contains a list of all isotopes and reactions involved. brulilo then parses publicly available nuclear data (binding energy, spin, partition function data, etc.) for each isotope from the WebNucleo group's data at nucleo.ces.clemson.edu. Fits to reaction rate data for each reaction are obtained from the publicly available data provided by the Joint Institute for Nuclear Astrophysics' Reaclib database. Reverse reactions are calculated from detailed balance. The reaction network then consists of a sparse system of mathematically stiff ordinary differential equations (ODEs). Physically, \"stiffness\" here means that there are some reaction rates that are occurring much faster than others; the ratio of the fast to slow often being greater than 10^15 in astrophysics. Numerical integration of such systems typically involves implicit integration schemes, which brulilo will leverage from the scientific computing Python package, Numpy, as well as implement its own. There has recently been work from researchers at Oak Ridge National Lab who have found good results from applying quasi-equilibrium and quasi-asymptotic conditions to the stiff system of ODEs, which effectively remove some of the stiffness and allow for efficient explicit integration techniques to be used. The original intent of brulilo was to implement these stiffness-alleviating techniques with explicit integrators and compare the performance to traditional implicit integrations of the full stiff system. This is still underway, as the code is very much in an alpha-release state. Furthermore, explicit integrators are often much easier to parallelize than their implicit counterparts. brulilo will implement parallelization of these techniques, leveraging both the Python implementation of MPI, mpi4py, as well as highly parallelized versions targeted at GPUs with PyOpenCL and/or PyCUDA.", + "laborHours": 0, + "languages": [], + "name": "brulilo, Version 0.x", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/cmsquared/brulilo/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/cmsquared/brulilo", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The intent of the software is eventually to become a middleware library to provide a cross platform interface for creating and managing a ramdisk. Eventually it will cover many platforms (*nix, Windows, Mac), and have the library written in several languages. At this point, the library is a functional python library for managing a Mac ramdisk. Some code is also included in how to use the library. Initial intended uses for the library: archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Provide a throw-away filesystem for unit testing filesystem related functionality. archive deleteone.sql elink_2017_10_20.json file.json fix_on_records.sh just-doi-it.sh onrecords postfile.sh postit.sh solr-delete testrepos.sh wipe.postgresql Improve compile time when building software.", + "laborHours": 0, + "languages": [], + "name": "ramdisk, Version 0.x", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/csd-dev-tools/ramdisk", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MATK provides basic functionality to facilitate model analysis within the Python computational environment. Model analysis setup within MATK includes: - define parameters - define observations - define model (python function) - define samplesets (sets of parameter combinations) Currently supported functionality includes: - forward model runs - Latin-Hypercube sampling of parameters - multi-dimensional parameter studies - parallel execution of parameter samples - model calibration using internal Levenberg-Marquardt algorithm - model calibration using lmfit package - model calibration using levmar package - Markov Chain Monte Carlo using pymc package MATK facilitates model analysis using: - scipy - calibration (scipy.optimize) - rpy2 - Python interface to R", + "laborHours": 0, + "languages": [], + "name": "Model Analysis ToolKit", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dharp/MATK", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Streaming Canvas is an interactive data visualization tool for high dimensional data such as text documents. It allows the user to interactively analyze documents.", + "laborHours": 0, + "languages": [], + "name": "Streaming Canvas", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/aim-science-of-interaction/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/aim-science-of-interaction", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Vector extensions, such as SSE, have been part of the x86 CPU since the 1990s, with applications in graphics, signal processing, and scientific applications. Although many algorithms and applications can naturally benefit from automatic vectorization techniques, there are still many that are difficult to vectorize due to their dependence on irregular data structures, dense branch operations, or data dependencies. Sequence alignment, one of the most widely used operations in bioinformatics workflows, has a computational footprint that features complex data dependencies. The trend of widening vector registers adversely affects the state-of-the-art sequence alignment algorithm based on striped data layouts. Therefore, a novel SIMD implementation of a parallel scan-based sequence alignment algorithm that can better exploit wider SIMD units was implemented as part of the Parallel Sequence Alignment Library (parasail). Parasail features: Reference implementations of all known vectorized sequence alignment approaches. Implementations of Smith Waterman (SW), semi-global (SG), and Needleman Wunsch (NW) sequence alignment algorithms. Implementations across all modern CPU instruction sets including AVX2 and KNC. Language interfaces for C/C++ and Python.", + "laborHours": 0, + "languages": [], + "name": "Pairwise Sequence Alignment Library", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/jeffdaily/parasail/blob/master/COPYING", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jeffdaily/parasail", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Shifter enables application virtualization or containerization in large-scale HPC environments. This technology decreases the effort to port applications to or between HPC sites while increasing reproducibility and scientific productivity. Shifter works by converting application/container images to a common format, and then leverages basic Linux functionality to make that image available to batch jobs run in the HPC environment.", + "laborHours": 0, + "languages": [], + "name": "shifter", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/NERSC/shifter/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NERSC/shifter", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "dkrakowski@anl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Tomopy is a Python toolbox to perform x-ray data processing, image reconstruction and data exchange tasks at synchrotron facilities. The dependencies of the software are currently as follows: -Python related python standard library (http://docs.python.org/2/library/) numpy (http://www.numpy.org/) scipy (http://scipy.org/) matplotlib (http://matplotlip.org/) sphinx (http://sphinx-doc.org) pil (http://www.pythonware.com/products/pil/) pyhdf (http://pysclint.sourceforge.net/pyhdf/) h5py (http://www.h5py.org) pywt (http://www.pybytes.com/pywavelets/) file.py (https://pyspec.svn.sourceforge.net/svnroot/pyspec/trunk/pyspec/ccd/files.py) -C/C++ related: gridec (anonymous?? C-code written back in 1997 that uses standard C library) fftw (http://www.fftw.org/) tomoRecon (multi-threaded C++ verion of gridrec. Author: Mark Rivers from APS. http://cars9.uchicago.edu/software/epics/tomoRecon.html) epics (http://www.aps.anl.gov/epics/)", + "laborHours": 0, + "languages": [], + "name": "Tomopy: A Python toolbox to perform X-Ray data proessing and image reconstruction.", + "organization": "Argonne National Laboratory (ANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/tomopy/tomopy/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/tomopy/tomopy", + "status": "Production", + "tags": [ + "DOE CODE", + "Argonne National Laboratory (ANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The OpenSM Monitoring System includes a collection of diagnostic and monitoring tools for use on Infiniband networks. The information this system gathers is obtained from a service, which in turn is obtained directly from the OpenSM subnet manager.", + "laborHours": 0, + "languages": [], + "name": "OpenSM Monitoring System", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/meier/opensm-smt", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Not Specified", + "laborHours": 0, + "languages": [], + "name": "Framework for Network Co-simulation v. 2.x", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/GridOPTICS/FNCS/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/GridOPTICS/FNCS", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Flume-plugins are plugins for Apache Flume, which are used for managing data transferred through Apache Flume.", + "laborHours": 0, + "languages": [], + "name": "flume-plugins Version 1.0", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/flume-plugins/blob/master/DISCLAIMER", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/chu11/flume-plugins", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "FileUtils provides a suite of tools to manage large datasets typically created by large parallel MPI applications. They are written in C and use standard POSIX I/Ocalls. The current suite consists of tools to copy, compare, remove, and list. The tools provide dramatic speedup over existing Linux tools, which often run as a single process.", + "laborHours": 0, + "languages": [], + "name": "Distributed File System Utilities to Manage Large DatasetsVersion 0.5", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/hpc/mpifileutils/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/hpc/fileutils", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "christopher.kowalczyk@inl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "FALCON has been developed to enable simulation of the tightly coupled fluid-rock behavior in hydrothermal and engineered geothermal system (EGS) reservoirs, targeting the dynamics of fracture stimulation, fluid flow, rock deformation, and heat transport in a single integrated code, with the ultimate goal of providing a tool that can be used to test the viability of EGS in the United States and worldwide. Reliable reservoir performance predictions of EGS systems require accurate and robust modeling for the coupled thermal­hydrological­mechanical processes.", + "laborHours": 0, + "languages": [], + "name": "Fracturing And Liquid CONvection", + "organization": "Idaho National Laboratory (INL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/idaholab/falcon", + "status": "Production", + "tags": [ + "DOE CODE", + "Idaho National Laboratory (INL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A general particle library designed to run on next-generation hardware such as MICs and GPUs.", + "laborHours": 0, + "languages": [], + "name": "Libparty, Version 1.x", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/losalamos/libparty", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kindrew@jlab.org" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A simple code-generator to generate the low level code kernels used by the QPhiX Library for Lattice QCD. Generates Kernels for Wilson-Dslash, and Wilson-Clover kernels. Can be reused to write other optimized kernels for Intel Xeon Phi(tm), Intel Xeon(tm) and potentially other architectures.", + "laborHours": 0, + "languages": [], + "name": "QPhiX Code Generator", + "organization": "Thomas Jefferson National Accelerator Facility (TJNAF)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/JeffersonLab/qphix-codegen/blob/master/codegen/LICENSE.markdown", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/JeffersonLab/qphix-codegen", + "status": "Production", + "tags": [ + "DOE CODE", + "Thomas Jefferson National Accelerator Facility (TJNAF)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MACSio is a Multi-purpose, Application-Centric, Scalable I/O proxy application. It is designed to support a number of goals with respect to parallel I/O performance testing and benchmarking including the ability to test and compare various I/O libraries and I/O paradigms, to predict scalable performance of real applications and to help identify where improvements in I/O performance can be made within the HPC I/O software stack.", + "laborHours": 0, + "languages": [], + "name": "Multi-Purpose, Application-Centric, Scalable I/O Proxy Application", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/MACSio", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "\"MetaGenomic Assembly by Merging\" (MeGAMerge)Is a novel method of merging of multiple genomic assembly or long read data sources for assembly by use of internal trimming/filtering of data, followed by use of two 3rd party tools to merge data by overlap based assembly.", + "laborHours": 0, + "languages": [], + "name": "MetaGenomic Assembly by Merging (MeGAMerge)", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/MeGAMerge/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/MeGAMerge", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Edge Bioinformatics is a developmental bioinformatics and data management platform which seeks to supply laboratories with bioinformatics pipelines for analyzing data associated with common samples case goals. Edge Bioinformatics enables sequencing as a solution and forward-deployed situations where human-resources, space, bandwidth, and time are limited. The Edge bioinformatics pipeline was designed based on following USE CASES and specific to illumina sequencing reads. 1. Assay performance adjudication (PCR): Analysis of an existing PCR assay in a genomic context, and automated design of a new assay to resolve conflicting results; 2. Clinical presentation with extreme symptoms: Characterization of a known pathogen or co-infection with a. Novel emerging disease outbreak or b. Environmental surveillance", + "laborHours": 0, + "languages": [], + "name": "Edge Bioinformatics", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/losalamos/edge", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "One major challenge in the field of shotgun metagenomics is the accurate identification of the organisms present within the community, based on classification of short sequence reads. Though microbial community profiling methods have emerged to attempt to rapidly classify the millions of reads output from contemporary sequencers, the combination of incomplete databases, similarity among otherwise divergent genomes, and the large volumes of sequencing data required for metagenome sequencing has led to unacceptably high false discovery rates (FDR). Here we present the application of a novel, gene-independent and signature-based metagenomic taxonomic profiling tool with significantly smaller FDR, which is also capable of classifying never-before seen genomes into the appropriate parent taxa.The algorithm is based upon three primary computational phases: (I) genomic decomposition into bit vectors, (II) bit vector intersections to identify shared regions, and (III) bit vector subtractions to remove shared regions and reveal unique, signature regions. In the Decomposition phase, genomic data is first masked to highlight only the valid (non-ambiguous) regions and then decomposed into overlapping 24-mers. The k-mers are sorted along with their start positions, de-replicated, and then prefixed, to minimize data duplication. The prefixes are indexed and an identical data structure is created for the start positions to mimic that of the k-mer data structure. During the Intersection phase -- which is the most computationally intensive phase -- as an all-vs-all comparison is made, the number of comparisons is first reduced by four methods: (a) Prefix restriction, (b) Overlap detection, (c) Overlap restriction, and (d) Result recording. In Prefix restriction, only k-mers of the same prefix are compared. Within that group, potential overlap of k-mer suffixes that would result in a non-empty set intersection are screened for. If such an overlap exists, the region which intersects is first reduced by performing a binary search of the boundary suffixes of the smaller set into the larger set, which defines the limits of the zipper-based intersection process. Rather than recording the actual k-mers of the intersection, another data structure of identical \"shape\" is created which consists of only bit vectors so that only a 1 or 0 will be stored in the location of the k-mer suffix that was found in the intersection. This reduces the amount of data generated and stored considerably. During the Subtraction phase, relevant intersection bitmasks are first unionized together to form a single bitmask which is then applied over the original genome to reveal only those regions of the genome that are unique. These regions are then exported to disk in FASTA format and used in the application of determining the constituents of an unknown metagenomic community.", + "laborHours": 0, + "languages": [], + "name": "GOTTCHA, Version 1", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/losalamos/GOTTCHA", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "One major challenge in the field of shotgun metagenomics is the accurate identification of the organisms present within the community, based on classification of short sequence reads. Though microbial community profiling methods have emerged to attempt to rapidly classify the millions of reads output from contemporary sequencers, the combination of incomplete databases, similarity among otherwise divergent genomes, and the large volumes of sequencing data required for metagenome sequencing has led to unacceptably high false discovery rates (FDR). Here we present the application of a novel, gene-independent and signature-based metagenomic taxonomic profiling tool with significantly smaller FDR, which is also capable of classifying never-before seen genomes into the appropriate parent taxa.The algorithm is based upon three primary computational phases: (I) genomic decomposition into bit vectors, (II) bit vector intersections to identify shared regions, and (III) bit vector subtractions to remove shared regions and reveal unique, signature regions.In the Decomposition phase, genomic data is first masked to highlight only the valid (non-ambiguous) regions and then decomposed into overlapping 24-mers. The k-mers are sorted along with their start positions, de-replicated, and then prefixed, to minimize data duplication. The prefixes are indexed and an identical data structure is created for the start positions to mimic that of the k-mer data structure.During the Intersection phase -- which is the most computationally intensive phase -- as an all-vs-all comparison is made, the number of comparisons is first reduced by four methods: (a) Prefix restriction, (b) Overlap detection, (c) Overlap restriction, and (d) Result recording. In Prefix restriction, only k-mers of the same prefix are compared. Within that group, potential overlap of k-mer suffixes that would result in a non-empty set intersection are screened for. If such an overlap exists, the region which intersects is first reduced by performing a binary search of the boundary suffixes of the smaller set into the larger set, which defines the limits of the zipper-based intersection process. Rather than recording the actual k-mers of the intersection, another data structure of identical \"shape\" is created which consists of only bit vectors so that only a 1 or 0 will be stored in the location of the k-mer suffix that was found in the intersection. This reduces the amount of data generated and stored considerably.During the Subtraction phase, relevant intersection bitmasks are first unionized together to form a single bitmask which is then applied over the original genome to reveal only those regions of the genome that are unique. These regions are then exported to disk in FASTA format and used in the application of determining the constituents of an unknown metagenomic community.The DATABASE provided is the result of the algorithm described.", + "laborHours": 0, + "languages": [], + "name": "GOTTCHA Database, Version 1", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/losalamos/GOTTCHA", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "CASL's modeling and simulation technology, the Virtual Environment for Reactor Applications (VERA), incorporates coupled physics and science-based models, state-of-the-art numerical methods, modern computational science, integrated uncertainty quantification (UQ) and validation against data from operating pressurized water reactors (PWRs), single-effect experiments, and integral tests. The computational simulation component of VERA is the VERA Core Simulator (VERA-CS). The core simulator is the specific collection of multi-physics computer codes used to model and deplete a LWR core over multiple cycles. The core simulator has a single common input file that drives all of the different physics codes. The parser code, VERAIn, converts VERA Input into an XML file that is used as input to different VERA codes.", + "laborHours": 0, + "languages": [], + "name": "VERAIn", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/CASL/VERAin/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/CASL/VERAin/", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Cloud droplet number concentration is an important factor in understanding aerosol-cloud interactions. As aerosol concentration increases, it is expected that droplet number concentration (Nd) will increase and droplet size will decrease, for a given liquid water path. This will greatly affect cloud albedo as smaller droplets reflect more shortwave radiation; however, the magnitude and variability of these processes under different environmental conditions is still uncertain.McComiskey et al. (2009) have implemented a method, based onBoers and Mitchell (1994), for calculating Nd from ground-based remote sensing measurements of optical depth and liquid water path. They show that the magnitude of the aerosol-cloud interactions (ACI) varies with a range of factors, including the relative value of the cloud liquid water path (LWP), the aerosol size distribution, and the cloud updraft velocity. Estimates of Nd under a range of cloud types and conditions and at a variety of sites are needed to further quantify the impacts of aerosol cloud interactions. In order to provide data sets for studying aerosol-cloud interactions, the McComiskey et al. (2009) method was implemented as the Droplet Number Concentration (NDROP) value-added product (VAP).", + "laborHours": 0, + "languages": [], + "name": "Droplet Number Concentration Value Added Product", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ARM-DOE/adi-vap-ndrop", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ARM-DOE/adi-vap-ndrop", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "joiner@ameslab.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ParFit is a flexible and extendable framework and library of classes for fitting force-field parameters to data from high-level ab-initio calculations on the basis of deterministic and stochastic algorithms. Currently, the code is fitting MM3 and Merck force-field parameters but could easily extend to other force-field types.", + "laborHours": 0, + "languages": [], + "name": "Force-Field Parameter Fitter", + "organization": "Ames Laboratory (AMES)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/fzahari/ParFit", + "status": "Production", + "tags": [ + "DOE CODE", + "Ames Laboratory (AMES)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The four-dimensional scattering function S(Q,w) obtained by inelastic neutron scattering measurements provides unique \"dynamical fingerprints\" of the spin state and interactions present in complex magnetic materials. Extracting this information however is currently a slow and complex process that may take an expert -depending on the complexity of the system- up to several weeks of painstaking work to complete. Spin Wave Genie was created to abstract and automate this process. It strives to both reduce the time to complete this analysis and make these calculations more accessible to a broader group of scientists and engineers.", + "laborHours": 0, + "languages": [], + "name": "Spin Wave Genie", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/SpinWaveGenie/SpinWaveGenie", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "DESTINY is a comprehensive tool for modeling 3D and 2D cache designs using SRAM,embedded DRAM (eDRAM), spin transfer torque RAM (STT-RAM), resistive RAM (ReRAM), and phase change RAM (PCN). In its purpose, it is similar to CACTI, CACTI-3DD or NVSim. DESTINY is very useful for performing design-space exploration across several dimensions, such as optimizing for a target (e.g. latency, area or energy-delay product) for agiven memory technology, choosing the suitable memory technology or fabrication method (i.e. 2D v/s 3D) for a given optimization target, etc. DESTINY has been validated against several cache prototypes. DESTINY is expected to boost studies of next-generation memory architectures used in systems ranging from mobile devices to extreme-scale supercomputers.", + "laborHours": 0, + "languages": [], + "name": "DESTINY", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://code.ornl.gov/3d_cache_modeling_tool/destiny/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://code.ornl.gov/3d_cache_modeling_tool/destiny", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ] + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "To address a pressing need to better understand the behavior and complex interaction of ice sheets within the global Earth system, significant development of continental-scale, dynamical ice-sheet models is underway. The associated verification and validation process of these models is being coordinated through a new, robust, python-based extensible software package, the Land Ice Verification and Validation toolkit (LIVV). This release provides robust and automated verification and a performance evaluation on LCF platforms. The performance V&V involves a comprehensive comparison of model performance relative to expected behavior on a given computing platform. LIVV operates on a set of benchmark and test data, and provides comparisons for a suite of community prioritized tests, including configuration and parameter variations, bit-4-bit evaluation, and plots of tests where differences occur.", + "laborHours": 0, + "languages": [], + "name": "Land Ice Verification and Validation Kit", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LIVVkit/LIVVkit", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Autotune software code uses an island-based evolutionary algorithm to solve multi-objective optimization problems. For the code provided, this has been applied to the whole-building simulation engine EnergyPlus to allow a software description of a building to be calibrated to measured data.", + "laborHours": 0, + "languages": [], + "name": "Autotune", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ORNL-BTRIC/Autotune/blob/master/LICENCE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL-BTRIC/Autotune", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A collection of functions for statistical computing and data manipulation. These include routines for rapidly aggregating heterogeneous matrices, manipulating file names, loading R objects, sourcing multiple R files, formatting datetimes, multi-core parallel computing, stream editing, specialized plotting, etc. Smisc-package A collection of miscellaneous functions allMissing Identifies missing rows or columns in a data frame or matrix as.numericSilent Silent wrapper for coercing a vector to numeric comboList Produces all possible combinations of a set of linear model predictors cumMax Computes the maximum of the vector up to the current index cumsumNA Computes the cummulative sum of a vector without propogating NAs d2binom Probability functions for the sum of two independent binomials dataIn A flexible way to import data into R. dbb The Beta-Binomial Distribution df2list Row-wise conversion of a data frame to a list dfplapply Parallelized single row processing of a data frame dframeEquiv Examines the equivalence of two dataframes or matrices dkbinom Probability functions for the sum of k independent binomials factor2character Converts all factor variables in a dataframe to character variables findDepMat Identify linearly dependent rows or columns in a matrix formatDT Converts date or datetime strings into alternate formats getExtension Filename manipulations: remove the extension or path, extract the extension or path getPath Filename manipulations: remove the extension or path, extract the extension or path grabLast Filename manipulations: remove the extension or path, extract the extension or path ifelse1 Non-vectorized version of ifelse integ Simple numerical integration routine interactionPlot Two-way Interaction Plot with Error Bar linearMap Linear mapping of a numerical vector or scalar list2df Convert a list to a data frame loadObject Loads and returns the object(s) in an \".Rdata\" file more Display the contents of a file to the R terminal movAvg2 Calculate the moving average using a 2-sided window openDevice Opens a graphics device based on the filename extension p2binom Probability functions for the sum of two independent binomials padZero Pad a vector of numbers with zeros parseJob Parses a collection of elements into (almost) equal sized groups pbb The Beta-Binomial Distribution pcbinom A continuous version of the binomial cdf pkbinom Probability functions for the sum of k independent binomials plapply Simple parallelization of lapply plotFun Plot one or more functions on a single plot PowerData An example of power data pvar Prints the name and value of one or more objects qbb The Beta-Binomial Distribution rbb And numerous others (space limits reporting).", + "laborHours": 0, + "languages": [], + "name": "Smisc - A collection of miscellaneous functions", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/Smisc/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/Smisc", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The core of the modeling platform is an extensible block library for the MATLAB/Simulink software suite. The platform enables true co-simulation (interaction at each simulation time step) with NREL's state-of-the-art modeling tools and other energy modeling software.", + "laborHours": 0, + "languages": [], + "name": "Campus Energy Model for Control and Performance Validation", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/CampusEnergyModeling/", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Small pieces of software that wraps the FAST model so that FAST can be integrated to WISDEM.", + "laborHours": 0, + "languages": [], + "name": "Aeroelastic Systems Engineering Module", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/wisdem/aeroelasticse", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "FESTR is a modeling tool for calculating spectroscopic-quality synthetic outputs (e.g., spectra and images) based on (in general) the time evolutions of 3-D spatial distributions of materials characterized by their chemical composition, temperature, and density conditions. FESTR performs raytracing across unstructured meshes, builds intrinsic optical properties of mixed materials by performing equation-of-state lookups in external data, and then solves the radiation-transport equation along rays to obtain emergent time and space resolved synthetic spectra. These results can be further processed into time and/or space integrated spectra, as well as into spectral-band-integrated synthetic images, radiated power histories, and total radiated energy values. FESTR is also applicable to spatial reconstructions of material properties via the analysis of experimental data.", + "laborHours": 0, + "languages": [], + "name": "FESTR, Version 0.x", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LANLhakel/FESTR/blob/d5a8941f2e74fb0adc8b12a90180b299b95dc93e/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LANLhakel/FESTR", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This package contains statistical routines for extracting features from multivariate time-series data which can then be used for subsequent multivariate statistical analysis to identify patterns and anomalous behavior. It calculates local linear or quadratic regression model fits to moving windows for each series and then summarizes the model coefficients across user-defined time intervals for each series. These methods are domain agnostic-but they have been successfully applied to a variety of domains, including commercial aviation and electric power grid data.", + "laborHours": 0, + "languages": [], + "name": "qFeature", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/qFeature/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL/qFeature", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Enables applications to emit log information into an output file and produced a structured visual summary of the log data, as well as various statistical analyses of it. This makes it easier for developers to understand the behavior of their applications.", + "laborHours": 0, + "languages": [], + "name": "Sight Version 0.1", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.1", + "name": "GPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/bronevet/sight", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "joiner@ameslab.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "As the rate, sophistication, and potential damage of cyber attacks continue to grow, the latency of human-speed analysis and response is becoming increasingly costly. Intelligent response to detected attacks and other malicious activity requires both knowledge of the characteristics of the attack as well as how resources involved in the attack related to the mission of the organization. Cydime fills this need by estimating a key component of intrusion detection and response automation: the relationship type and strength between the target organization and the potential attacker.", + "laborHours": 0, + "languages": [], + "name": "Cyber Dynamic Impact Modeling Engine", + "organization": "Ames Laboratory (AMES)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Ames-Laboratory-Cyber-Group/Cydime", + "status": "Production", + "tags": [ + "DOE CODE", + "Ames Laboratory (AMES)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "DICe is an open source digital image correlation (DIC) tool intended for use as a module in an external application or as a standalone analysis code. It's primary capability is computing full-field displacements and strains from sequences of digital These images are typically of a material sample undergoing a materials characterization experiment, but DICe is also useful for other applications (for example, trajectory tracking). DICe is machine portable (Windows, Linux and Mac) and can be effectively deployed on a high performance computing platform. Capabilities from DICe can be invoked through a library interface, via source code integration of DICe classes or through a graphical user interface.", + "laborHours": 0, + "languages": [], + "name": "Digital Image Correlation Engine", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dicengine/dice", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Many simulation software produce data in the form of a set of field values or of a set of particle positions. (one such example is that of particle-in-cell codes, which produce data on the electromagnetic fields that they simulate.) However, each particular software uses its own particular format and layout, for the output data. This makes it difficult to compare the results of different simulation software, or to have a common visualization tool for these results. However, a standardized layout for fields and particles has recently been developed: the openPMD format ( HYPERLINK \"http://www.openpmd.org/\"www.openpmd.org) This format is open- source, and specifies a standard way in which field data and particle data should be written. The openPMD format is already implemented in the particle-in-cell code Warp (developed at LBL) and in PIConGPU (developed at HZDR, Germany). In this context, the proposed software (openPMD-viewer) is a Python package, which allows to access and visualize any data which has been formatted according to the openPMD standard. This package contains two main components: - a Python API, which allows to read and extract the data from a openPMD file, so as to be able to work with it within the Python environment. (e.g. plot the data and reprocess it with particular Python functions) - a graphical interface, which works with the ipython notebook, and allows to quickly visualize the data and browse through a set of openPMD files. The proposed software will be typically used when analyzing the results of numerical simulations. It will be useful to quickly extract scientific meaning from a set of numerical data.", + "laborHours": 0, + "languages": [], + "name": "openPMD-viewer", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/openPMD/openPMD-viewer/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/openPMD/openPMD-viewer", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "VOLTTRON™ is an agent execution platform providing services to its agents that allow them to easily communicate with physical devices and other resources. VOLTTRON™ delivers an innovative distributed control and sensing software platform that supports modern control strategies, including agent-based and transaction-based controls. It enables mobile and stationary software agents to perform information gathering, processing, and control actions. VOLTTRON™ can independently manage a wide range of applications, such as HVAC systems, electric vehicles, distributed energy or entire building loads, leading to improved operational efficiency.", + "laborHours": 0, + "languages": [], + "name": "Volttron version 3.x", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/VOLTTRON/volttron/blob/3.x/TERMS.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/VOLTTRON/volttron/", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "\"XTL Converter\" is a short Python script for electron microscopy simulation. The program takes an input crystal file in the VESTA *.XTL format and converts it to a text format readable by the multislice simulation program ìSTEM. The process of converting a crystal *.XTL file to the format used by the ìSTEM simulation program is quite tedious; it generally requires the user to select dozens or hundreds of atoms, rearranging and reformatting their position. Header information must also be reformatted to a specific style to be read by ìSTEM. \"XTL Converter\" simplifies this process, saving the user time and allowing for easy batch processing of crystals.", + "laborHours": 0, + "languages": [], + "name": "XTL Converter", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/stevenspurgeon/xtl-converter/blob/master/License", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/stevenspurgeon/xtl-converter", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Cantera is a suite of object-oriented software tools for problems involving chemical kinetics, thermodynamics, and/or transport processes. It is a multi-organizational effort to create and formulate high quality 0D and 1D constitutive modeling tools for reactive transport codes.Institutions involved with the effort include Sandia, MIT, Colorado School of Mines, U. Texas, NASA, and Oak Ridge National Labs. Specific to Sandia's contributions, the Cantera Electrolyte Thermo Objects (CETO) packages is comprised of add-on routines for Cantera that handle electrolyte thermochemistry and reactions within the overall Cantera package. Cantera is a C++ Cal Tech code that handles gas phase species transport, reaction, and thermodynamics. With this addition, Cantera can be extended to handle problems involving liquid phase reactions and transport in electrolyte systems, and phase equilibrium problemsinvolving concentrated electrolytes and gas/solid phases. A full treatment of molten salt thermodynamics and transport has also been implemented in CETO. The routines themselves consist of .cpp and .h files containing C++ objects that are derived from parent Cantera objects representing thermodynamic functions. They are linked unto the main Cantera libraries when requested by the user. As an addendum to the main thermodynamics objects, several utility applications are provided. The first is multiphase Gibbs free energy minimizer based on the vcs algorithm, called vcs_cantera. This code allows for the calculation of thermodynamic equilibrium in multiple phases at constant temperature and pressure. Note, a similar code capability exists already in Cantera. This version follows the same algorithm, but gas a different code-base starting point, and is used as a research tool for algorithm development. The second program, cttables, prints out tables of thermodynamic and kinetic information for thermodynamic and kinetic objects within Cantera. This program serves as a \"Get the numbers out\" utility for Cantera, and as such it is very useful as a verification tool. These add-on utilities are encapsulated into a directory structure named cantera_apps, whose installation uses autoconf and also utilizes Cantera's application environment (i.e., they utilize Cantera as a library).", + "laborHours": 0, + "languages": [], + "name": "Cantera and Cantera Electrolyte Thermodynamics Objects", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Cantera/cantera", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Sandia's Dakota software (available at http://dakota.sandia.gov) supports science and engineering transformation through advanced exploration of simulations. Specifically it manages and analyzes ensembles of simulations to provide broader and deeper perspective for analysts and decision makers. This enables them to: (1) enhance understanding of risk, (2) improve products, and (3) assess simulation credibility. In its simplest mode, Dakota can automate typical parameter variation studies through a generic interface to a computational model. However, Dakota also delivers advanced parametric analysis techniques enabling design exploration, optimization, model calibration, risk analysis, and quantification of margins and uncertainty with such models. It directly supports verification and validation activities. The algorithms implemented in Dakota aim to address challenges in performing these analyses with complex science and engineering models from desktop to high performance computers.", + "laborHours": 0, + "languages": [], + "name": "Design Analysis Kit for Optimization and Terascale Applications 6.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pemryan/DAKOTA", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Kokkos library implements thread-parallel execution policies and shared-memory multidimensional array data structures that enable applications and domain libraries to develop computational kernels that are performance portable across multicore-CPU and manycore-accelerator (e.g. GPU) computing architectures.", + "laborHours": 0, + "languages": [], + "name": "Kokkos Version 2.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/kokkos/kokkos", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Sandia National Laboratories has modified Simulating WAves Nearshore (SWAN), the Delft University of Technology code,, to include functionality to better model wave energy converters (WECs). The code modified by SNL has been named SNL-SWAN. SNL-SWAN includes a frequency dependent WEC Module that builds upon the traditional obstacle module in SWAN. In SNL-SWAN, a frequency dependent transmission coefficient is calculated to model power absorbed by WEC devices. The power transmission coefficients are calculated based on the WEC's power performance, which is defined by the user in the input text files. Two methods of defining WEC power performance have been implemented: a user-specified power matrix, and a user-specified relative capture width. These methods allow the user to define the WEC's frequency dependent energy absorption as a function of period and/or wave height. SWAN test cases were run to verify the compiled code's functionality, and verification of the frequency dependent WEC Module in SNL-SWAN has also been performed. SNL-SWAN code is will be released as open source code and will be made publicly available.", + "laborHours": 0, + "languages": [], + "name": "SNL-SWAN", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/SNL-WaterPower/SNL-SWAN", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "UseLATEX.cmake is a collection of script functions and examples for building LaTeX documents. It simplifies the process of building LaTeX documents, which requires the execution of multiple programs and the management of several input files. UseLATEX.cmake also provides several options to customize the LaTeX build process.", + "laborHours": 0, + "languages": [], + "name": "UseLATEX.cmake", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/kmorel/UseLATEX", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "VTK-m is a toolkit of scientific visualization algorithms for emerging processor architectures. VTK-m supports the fine-grained concurrency for data analysis and visualization algorithms required to drive extreme scale computing by providing abstract models for data and execution that can be applied to a variety of algorithms across many different processor architectures.", + "laborHours": 0, + "languages": [], + "name": "VTK-m", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://gitlab.kitware.com/vtk/vtk-m", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Some moment methods for kinetic equations are complicated and take time to develop. Over the course of a couple years, this software was developed to test different closures on standard test problems in the literature. With this software, researchers in the field of moment closures will be able to rapidly test new methods.", + "laborHours": 0, + "languages": [], + "name": "Moment Closures on Two-Dimensional Cartesian Grids", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ckrisgarrett/closures-2d", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ckrisgarrett/closures-2d", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "An automated drift time extraction and computed associated collision cross section software tool for small molecule analysis with ion mobility spectrometry-mass spectrometry (IMS-MS). The software automatically extracts drift times and computes associated collision cross sections for small molecules analyzed using ion mobility spectrometry-mass spectrometry (IMS-MS) based on a target list of expected ions provided by the user.", + "laborHours": 0, + "languages": [], + "name": "IMS - MS Data Extractor", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/PNNL-Comp-Mass-Spec/PIXIE/blob/master/PNNL%20OSS%20License_citation.doc", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/PIXIE", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "nHHD is a C++ library to decompose a flow field into three components exhibiting specific types of behaviors. These components allow more targeted analysis of flow behavior and can be applied to a variety of application areas.", + "laborHours": 0, + "languages": [], + "name": "The Natural Helmholtz-Hodge Decomposition", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/bhatiaharsh/naturalHHD", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "To understand the performance of parallel programs, developers need to be able to relate performance measurement data with context information, such as the call path / line numbers or iteration numbers where measurements were taken. Caliper provides a generic way to specify and collect multi-dimensional context information across the software stack, and provide ti to third-party measurement tools or write it into a file or database in the form of context streams.", + "laborHours": 0, + "languages": [], + "name": "Caliper Context Annotation Library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/Caliper/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/Caliper", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "LCMSnet communicates with, controls and orchestrates devices for high pressure liquid chromatography. In developing cutting edge chromatographic methods it was apparent that components from different manufacturers were required. Autosamplers, valves, and pumps all had to be controlled and configured to run unattended and in the highest throughput possible. The power of LCMSnet is the ability so build methods in a simple step by step fashion and then the software uses a scheduling algorithm to run the devices as efficiently as possible without crashing critical functions. This latest iteration of the software allows for modeling of the valves and incorporates logic that will report if a fluid path is undesirable. LCMSnet has reduced method development time from days to minutes and allows the ability to check configurations before any valves or pumps are connected.", + "laborHours": 0, + "languages": [], + "name": "LCMSNet v. 3.0", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/PNNL-Comp-Mass-Spec/LCMSNet", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/LCMSNet", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "BGQNCL is a library to monitor and record network performance counters on the 5D torus interconnection network of IBM's Blue Gene/Q platform.", + "laborHours": 0, + "languages": [], + "name": "Blue Gene/Q Network Performance Counters Monitoring Library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/bgqncl", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Dragonview is an interactive visual analytics tool to visualize the nodes and links of a supercomputer that uses the dragonfly topology for its interconnection network. 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In particular - it implemented parallel data copy and parallel data checksumming, with advanced features such as async progress report, checkpoint and restart, as well as integrity checking.", + "laborHours": 0, + "languages": [], + "name": "pcircle - A Suite of Scalable Parallel File System Tools", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL-TechInt/pcircle", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "The visualization enables the simulation analyst to see changes in the frequency through time and space. 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Intrepid2 is a performance portable version of Intrepid, that requires all input data types be Kokkos (performance-portability library from Trillions) multidimentional arrays. this restriction is needed for providing performance portability in Intrepid2 and break backward-compatibility of Intrepid.", + "laborHours": 0, + "languages": [], + "name": "INteroperable Tools for Rapid dEveloPment of compatible Discretizations", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/intrepid/Copyright.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This code implements the GloVe algorithm for learning word vectors from a text corpus. 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The built-in functionality of ParaView provides the capacity to process and visualize data sets ranging from small models on local desktop systems to extremely large models created and stored on remote supercomputers. The RVA plugin that we developed and the associated User Manual provide improved functionality through new software tools, and instruction in the use of ParaView-RVA, targeted to petroleum engineers and geologists in industry and research. The RVA web site (http://rva.cs.illinois.edu) provides an overview of functions, and the development web site (https://github.com/shaffer1/RVA) provides ready access to the source code, compiled binaries, user manual, and a suite of demonstration data sets. Key functionality has been included to support a range of reservoirs visualization and analysis needs, including: sophisticated connectivity analysis, cross sections through simulation results between selected wells, simplified volumetric calculations, global vertical exaggeration adjustments, ingestion of UTChem simulation results, ingestion of Isatis geostatistical framework models, interrogation of joint geologic and reservoir modeling results, joint visualization and analysis of well history files, location-targeted visualization, advanced correlation analysis, visualization of flow paths, and creation of static images and animations highlighting targeted reservoir features.", + "laborHours": 0, + "languages": [], + "name": "RVA: A Plugin for ParaView 3.14", + "organization": "National Energy Technology Laboratory (NETL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/shaffer1/RVA/blob/master/Copyright.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/shaffer1/RVA", + "status": "Production", + "tags": [ + "DOE CODE", + "National Energy Technology Laboratory (NETL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PyTrilinos is a Python interface to selected Trilinos packages. This makes Trilinos linear algebra classes, linear solvers, preconditioners, nonlinear solvers, eigensolvers, and tools available to Python programmers. This broadens the user base of Trilinos, and facilitates rapid prototyping of scientific codes and interactive manipulation of large, distributed data sets.", + "laborHours": 0, + "languages": [], + "name": "PyTrilinos", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The DOE has funded Sandia National Labs (SNL) to develop an open-source modeling tool to guide the design and layout of marine hydrokinetic (MHK) arrays to maximize power production while minimizing environmental effects. 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The software includes: - Pressure driven and demand driven hydraulic simulation - Water quality simulation to track concentration, trace, and water age - Conditional controls to simulate power outages - Models to simulate pipe breaks - A wide range of resilience metrics - Analysis and visualization tools", + "laborHours": 0, + "languages": [], + "name": "Water Network Tool for Resilience v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/usepa/wntr", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Single-Sided Messaging (SSM) is a portable, multitransport networking library that enables applications to leverage potential one-sided capabilities of underlying network transports. It also provides desirable semantics that services for highperformance, massively parallel computers can leverage, such as an explicit cancel operation for pending transmissions, as well as enhanced matching semantics favoring large numbers of buffers attached to a single match entry. This release supports TCP/IP, shared memory, and Infiniband.", + "laborHours": 0, + "languages": [], + "name": "Single Sided Messaging v. 0.6.6", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/matthewcurry/single-sided-messaging", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Mobile digital signage software optimized for giving tours and trade shows.", + "laborHours": 0, + "languages": [], + "name": "DiTour OSS", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ditour/ditour/blob/master/LICENSE.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ditour/ditour", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "VTK is a software library used for scientific visualization tasks. 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This software release constitutes a conformant storage server, along with the client-side libraries to access the storage over a network.", + "laborHours": 0, + "languages": [], + "name": "Sirocco Storage Server v. pre-alpha 0.1", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/matthewcurry/sirocco-release/blob/master/COPYING", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/matthewcurry/sirocco-release", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "minimega is an emulytics platform for creating testbeds of networked devices. The platoform consists of easily deployable tools to facilitate bringing up large networks of virtual machines including Windows, Linux, and Android. minimega allows experiments to be brought up quickly with almost no configuration. minimega also includes tools for simple cluster, management, as well as tools for creating Linux-based virtual machines. This release of minimega includes new emulated sensors for Android devices to improve the fidelity of testbeds that include mobile devices. Emulated sensors include GPS and", + "laborHours": 0, + "languages": [], + "name": "minimega v. 3.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sandia-minimega/minimega", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GridDyn is a part of power grid simulation toolkit. The code is designed using modern object oriented C++ methods utilizing C++11 and recent Boost libraries to ensure compatibility with multiple operating systems and environments.", + "laborHours": 0, + "languages": [], + "name": "Dynamic Power Grid Simulation", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/GridDyn/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/GridDyn", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Stride Search provides a flexible tool for detecting storms or other extreme climate events in high-resolution climate data sets saved on uniform latitude-longitude grids in standard NetCDF format. Users provide the software a quantitative description of a meteorological event they are interested in; the software searches a data set for locations in space and time that meet the user’s description. In its first stage, Stride Search performs a spatial search of the data set at each timestep by dividing a search domain into circular sectors of constant geodesic radius. Data from a netCDF file is read into memory for each circular search sector. If the data meet or exceed a set of storm identification criteria (defined by the user), a storm is recorded to a linked list. Finally, the linked list is examined and duplicate detections of the same storm are removed and the results are written to an output file. The first stage’s output file is read by a second program that builds storm. Additional identification criteria may be applied at this stage to further classify storms. 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We have demonstrated the effectiveness of our system on a large, real-world dataset of cyber security alerts.", + "laborHours": 0, + "languages": [], + "name": "Alert Triage v 0.1 beta", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sandialabs/alert-triage", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This application can determine the performance and chemical behavior of batteries in 1D when they are cycled. 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SOFT allows users to quickly create ontologies using only a basic text editor, verify it, and portray it in a graph layout system using customized styles.", + "laborHours": 0, + "languages": [], + "name": "Simple Ontology Format (SOFT)", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/sorokine/SOFT/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sorokine/SOFT", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Atom Trajectory Viewer is a visualization tool developed to enable interactive exploration of atomic trajectories and corresponding statistics in molecular dynamics.", + "laborHours": 0, + "languages": [], + "name": "Atom Trajectory Viewer", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/bhatiaharsh/TrajectoryExplorer", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The software is the interface between LCIO (lcio.desy.de) and Julia (julialang.org), such that event records in the LCIO format can be analyzed with Julia and its libraries.", + "laborHours": 0, + "languages": [], + "name": "LCIO Julia Bindings", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/jstrube/LCIO.jl/blob/master/LICENSE.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jstrube/LCIO.jl", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "CoMD-Em is a software implementation suite of the CoMD [4] proxy app using different emerging programming models. 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The code is expected ro run on a wide class of heterogeneous hardware configurations like shard/distributed/hybrid memory, GPU's and any other platform supported by the underlying programming model.", + "laborHours": 0, + "languages": [], + "name": "CoMD Implementation Suite in Emerging Programming Models", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/CoMD-Chapel/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/CoMD-Chapel", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The software provides a web interface means to upload, generate, analyze, manage and store DNA fragment length polymorphism data. 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While Sandia has a set of plugins available, they do not include all the data we need to capture. The ECAC plugin that we have developed enables collection of the Error Detection and Correction (EDAC) counters.", + "laborHours": 0, + "languages": [], + "name": "Error Detection and Correction LDMS Plugin Version 1.0", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ovis-hpc/ovis", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "libROM is a library that implements order reduction via singular value decomposition (SVD) of sampled state vectors. 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The presented techniques can also be integrated into other in situ frameworks.", + "laborHours": 0, + "languages": [], + "name": "Henson v1.0", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/mrzv/henson/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/mrzv/henson", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Collabmaps is a tool for generating an interactive map that can be displayed in a web browser to visualize connections between research institutions publishing on specific scientific topics. 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It allows DAKOTA to be used as an openMDAO “Driver”. DAKOTA contains a wide array of advanced sensitivity, uncertainty quantification, and optimization methods. 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Developers can retrieve the data through a Web services API (application programming interface). 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In addition, Mcqueuer provides load-balancing, which frees the user from having to worry about complex memory and CPU considerations, and instead focus on the processing itself.", + "laborHours": 0, + "languages": [], + "name": "Mcqueuer", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/aaronrphillips/mcqr/blob/master/COPYING", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/aaronrphillips/mcqr", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "AE3D solves for the shear Alfven eigenmodes and eigenfrequencies in a torodal magnetic fusion confinement device. 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These codes are used to calculate shear Alfven continua for 3D configurations, both with and without sound wave coupling effects.", + "laborHours": 0, + "languages": [], + "name": "Stellgap", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL-Fusion/Stellgap", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GeoPlace software solves several problems related to efficient sensor placement for remote sensing. It consists of several components. “GeoFoot” finds efficient locations for centering a set of camera images, in order to ensure that the collection of images contains an entire region. It is built on a modified version of “Simple MPS”. GeoSubFoot selects non-overlapping rectangular subregions of a single camera image, in order to devote more resources for higher-fidelity sub-images of those regions. The goal is for the rectangular subregions to contain many user-specified pixels of interest. Simple MPS is a generic program that produces point-sample distributions with blue noise characteristics over arbitrary-dimensional squares. GeoFoot includes an extension of it to sampling from polygons in 2d, including both the inside of the polygon and slightly outside it.", + "laborHours": 0, + "languages": [], + "name": "GeoPlace v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/cgvalic/GeoPlace/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/cgvalic/GeoPlace", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "DFNWorks is a suite of software for generating and solving flow and transport physics on a Discrete Fracture Network (DFN). The suite is composed of three components: DFNGen: Stochastic fracture generation, mesh generation, model setup; DFNFlow: Flow solution using PFLOTRAN or FEHM control volume formulation solver; DFNTrans: Particle tracking transport; DFNGen Algorithm Description: This is a workflow that uses Mathematica software, Python scripts written by the authors and the LaGriT software to generate; DFNFlow; The solution of flow in porous media is accomplished by coupling DFNGen output with the existing software packages FEHM and PFLOTRAN. The DFNWorks workflow involves modules and scripts that translate DFNGen output to formats compatible with FEHM and PFLOTRAN input. FEHM LA-CC-2012-083 PFLOTRAN LA-CC-09-047 LaGriT LA-CC-07-38 DFNTrans Stand alone particle tracking algorithm that takes FEHM/PFLOTRAN flow solution as output and computes velocity field and advects particles.", + "laborHours": 0, + "languages": [], + "name": "dfnWorks, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/dfnWorks/dfnWorks-Version1.0/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dfnWorks/dfnWorks-Version1.0", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This code is a toy (short) version of CODE-2016-83. From a general perspective, the code represents an unsupervised adaptive machine learning algorithm that allows efficient and high performance de-mixing and feature extraction of a multitude of non-negative signals mixed and recorded by a network of uncorrelated sensor arrays. The code identifies the number of the mixed original signals and their locations. Further, the code also allows deciphering of signals that have been delayed in regards to the mixing process in each sensor. This code is high customizable and it can be efficiently used for a fast macro-analyses of data. The code is applicable to a plethora of distinct problems: chemical decomposition, pressure transient decomposition, unknown sources/signal allocation, EM signal decomposition. An additional procedure for allocation of the unknown sources is incorporated in the code.", + "laborHours": 0, + "languages": [], + "name": "shiftNMFk 1.1: Robust Nonnegative matrix factorization with kmeans clustering and signal shift, for allocation of unknown physical sources, toy version for open sourcing with publications", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/rNMF/ShiftNMFk.jl/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/rNMF/ShiftNMFk.jl", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "A Splunk App designed to parse and tabulate PathScan data.", + "laborHours": 0, + "languages": [], + "name": "PathScan for Splunk", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/jwernicke/pathscan-splunk", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jwernicke/pathscan-splunk", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Mads.jl (Model analysis and decision support in Julia) is a code that streamlines the process of using data and models for analysis and decision support. It is based on another open-source code developed at LANL and written in C/C++ (MADS; http://mads.lanl.gov; LA-CC-11- 035). Mads.jl can work with external models of arbitrary complexity as well as built-in models of flow and transport in porous media. It enables a number of data- and model-based analyses including model calibration, sensitivity analysis, uncertainty quantification, and decision analysis. The code also can use a series of alternative adaptive computational techniques for Bayesian sampling, Monte Carlo, and Bayesian Information-Gap Decision Theory. The code is implemented in the Julia programming language, and has high-performance (parallel) and memory management capabilities. The code uses a series of third party modules developed by others. The code development will also include contributions to the existing third party modules written in Julia; this contributions will be important for the efficient implementation of the algorithm used by Mads.jl. The code also uses a series of LANL developed modules that are developed by Dan O'Malley; these modules will be also a part of the Mads.jl release. Mads.jl will be released under GPL V3 license. The code will be distributed as a Git repo at gitlab.com and github.com. Mads.jl manual and documentation will be posted at madsjulia.lanl.gov.", + "laborHours": 0, + "languages": [], + "name": "Mads.jl", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/madsjulia/Mads.jl", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "HPSim is a GPU-accelerated online multi-particle beam dynamics simulation tool for ion linacs. It was originally developed for use on the Los Alamos 800-MeV proton linac. It is a “z-code” that contains typical linac beam transport elements. The linac RF-gap transformation utilizes transit-time-factors to calculate the beam acceleration therein. The space-charge effects are computed using the 2D SCHEFF (Space CHarge EFFect) algorithm, which calculates the radial and longitudinal space charge forces for cylindrically symmetric beam distributions. Other space- charge routines to be incorporated include the 3D PICNIC and a 3D Poisson solver. HPSim can simulate beam dynamics in drift tube linacs (DTLs) and coupled cavity linacs (CCLs). Elliptical superconducting cavity (SC) structures will also be incorporated into the code. The computational core of the code is written in C++ and accelerated using the NVIDIA CUDA technology. Users access the core code, which is wrapped in Python/C APIs, via Pythons scripts that enable ease-of-use and automation of the simulations. The overall linac description including the EPICS PV machine control parameters is kept in an SQLite database that also contains calibration and conversion factors required to transform the machine set points into model values used in the simulation.", + "laborHours": 0, + "languages": [], + "name": "HPSim, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/apphys/hpsim/blob/master/README.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/apphys/hpsim", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The SIERRA Toolkit is a collection of libraries to facilitate the development of parallel engineering analysis applications. These libraries supply basic core services that an engineering application may need such as a parallel distributed and dynamic mesh database (for unstructured meshes), mechanics algorithm support (parallel infrastructure only), interfaces to parallel solvers, parallel mesh and data I/O, and various utilities (timers, diagnostic tools, etc.)", + "laborHours": 0, + "languages": [], + "name": "SIERRA Toolkit v. 2.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/trilinos/Trilinos/blob/master/packages/stk/COPYRIGHT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/trilinos/Trilinos/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The IonControl software is a set of python scripts and Field-Programmable-Gate-Array (FPGA) code designed to control a trapped ion research experiment. It enables one to generate the pulses (time resolution: 20ns) necessary to control the quantum states of trapped ions and allows one to collect and analyze measurement results from trapped ion systems.", + "laborHours": 0, + "languages": [], + "name": "IonControl v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pyIonControl/IonControl", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "VOLTTRON™ is an agent execution platform providing services to its agents that allow them to easily communicate with physical devices and other resources. VOLTTRON™ delivers an innovative distributed control and sensing software platform that supports modern control strategies, including agent-based and transaction-based controls. It enables mobile and stationary software agents to perform information gathering, processing, and control actions. VOLTTRON™ can independently manage a wide range of applications, such as HVAC systems, electric vehicles, distributed energy or entire building loads, leading to improved operational efficiency.", + "laborHours": 0, + "languages": [], + "name": "Volttron version 4", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/VOLTTRON/volttron", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Electrostatics software under development since 1999. Soee http://www.poissonboltzmann.org/ for more detail.", + "laborHours": 0, + "languages": [], + "name": "APBS (Adaptive Poisson-Boltzmann Solver) and PDB2PQR", + "organization": "CONTR", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Electrostatics/apbs-pdb2pqr", + "status": "Production", + "tags": [ + "DOE CODE" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PyGeoTess is a Python interface module to the GeoTess gridding and earth model library from Sandia National Laboratories. It provides simplified access to a subset of the GeoTess C++ library, and takes advantage of Python's interactive interpreter and inline documentation system.", + "laborHours": 0, + "languages": [], + "name": "PyGeoTess 0.2.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LANL-Seismoacoustics/PyGeoTess/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl-seismoacoustics/pygeotess", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Whole community shotgun sequencing of total DNA (i.e. metagenomics) and total RNA (i.e. metatranscriptomics) has provided a wealth of information in the microbial community structure, predicted functions, metabolic networks, and is even able to reconstruct complete genomes directly. Here we present ATLAS (Automatic Tool for Local Assembly Structures) a comprehensive pipeline for assembly, annotation, genomic binning of metagenomic and metatranscriptomic data with an integrated framework for Multi-Omics. This will provide an open source tool for the Multi-Omic community at large.", + "laborHours": 0, + "languages": [], + "name": "Automatic Tool for Local Assembly Structures", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/atlas", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The MC3 code is used to perform Monte Carlo simulations in the isothermal-isobaric ensemble (constant number of particles, temperature, and pressure) on molecular crystals. The molecules within the periodic simulation cell are treated as rigid bodies, alleviating the requirement for a complex interatomic potential. Intermolecular interactions are described using generic, atom-centered pair potentials whose parameterization is taken from the literature [D. E. Williams, J. Comput. Chem., 22, 1154 (2001)] and electrostatic interactions arising from atom-centered, fixed, point partial charges. The primary uses of the MC3 code are the computation of i) the temperature and pressure dependence of lattice parameters and thermal expansion coefficients, ii) tensors of elastic constants and compliances via the Parrinello and Rahman’s fluctuation formula [M. Parrinello and A. Rahman, J. Chem. Phys., 76, 2662 (1982)], and iii) the investigation of polymorphic phase transformations. The MC3 code is written in Fortran90 and requires LAPACK and BLAS linear algebra libraries to be linked during compilation. Computationally expensive loops are accelerated using OpenMP.", + "laborHours": 0, + "languages": [], + "name": "MC3, Version 1", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/cawkwell/MC3", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Software library for parallel rapid order N and graph-based recursive electronic structure solvers with applications to material science, chemistry, and molecular biology.", + "laborHours": 0, + "languages": [], + "name": "Progress Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/progress/progress.github.io", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The code would be used in analyses of data from the LHC, to improve the sensitivity of their experiments to new exotic particles. The software minimizes a certain function, as defined in the above reference, for some input provided by the user. The output to the user is the global minimum of that function. The code finds the global minimum using the Nelder-Mead algorithm. All the codes for the minimization including the Nelder-Mead algorithm, is written by the author. The software is written in c++.", + "laborHours": 0, + "languages": [], + "name": "Topness, Version 1", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/michaelgraesser/topness/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/michaelgraesser/topness", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2018-03-28" + }, + "description": "Sirepo is an open source framework for cloud computing. The graphical user interface (GUI) for Sirepo, also known as the client, executes in any HTML5 compliant web browser on any computing platform, including tablets. The client is built in JavaScript, making use of the following open source libraries: Bootstrap, which is fundamental for cross-platform web applications; AngularJS, which provides a model–view–controller (MVC) architecture and GUI components; and D3.js, which provides interactive plots and data-driven transformations. The Sirepo server is built on the following Python technologies: Flask, which is a lightweight framework for web development; Jinja, which is a secure and widely used templating language; and Werkzeug, a utility library that is compliant with the WSGI standard. We use Nginx as the HTTP server and proxy, which provides a scalable event-driven architecture. The physics codes supported by Sirepo execute inside a Docker container. One of the codes supported by Sirepo is the Synchrotron Radiation Workshop (SRW). SRW computes synchrotron radiation from relativistic electrons in arbitrary magnetic fields and propagates the radiation wavefronts through optical beamlines. SRW is open source and is primarily supported by Dr. Oleg Chubar of NSLS-II at Brookhaven National Laboratory.", + "laborHours": 0, + "languages": [], + "name": "Sirepo for Synchrotron Radiation Workshop", + "organization": "CONTR", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/radiasoft/sirepo", + "status": "Production", + "tags": [ + "DOE CODE" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Sirepo is an open source framework for cloud computing. The graphical user interface (GUI) for Sirepo, also known as the client, executes in any HTML5 compliant web browser on any computing platform, including tablets. The client is built in JavaScript, making use of the following open source libraries: Bootstrap, which is fundamental for cross-platform web applications; AngularJS, which provides a model–view–controller (MVC) architecture and GUI components; and D3.js, which provides interactive plots and data-driven transformations. The Sirepo server is built on the following Python technologies: Flask, which is a lightweight framework for web development; Jin-ja, which is a secure and widely used templating language; and Werkzeug, a utility library that is compliant with the WSGI standard. We use Nginx as the HTTP server and proxy, which provides a scalable event-driven architecture. The physics codes supported by Sirepo execute inside a Docker container. One of the codes supported by Sirepo is Warp. Warp is a particle-in-cell (PIC) code de-signed to simulate high-intensity charged particle beams and plasmas in both the electrostatic and electromagnetic regimes, with a wide variety of integrated physics models and diagnostics. At pre-sent, Sirepo supports a small subset of Warp’s capabilities. Warp is open source and is part of the Berkeley Lab Accelerator Simulation Toolkit.", + "laborHours": 0, + "languages": [], + "name": "Sirepo - Warp", + "organization": "CONTR", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/radiasoft/sirepo", + "status": "Production", + "tags": [ + "DOE CODE" + ], + "vcs": "git" + }, + { + "contact": { + "email": "pgarvey@bnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "OSCARS is a general purpose code for computation of radiation from charged particles in motion.", + "laborHours": 0, + "languages": [], + "name": "Open Source Code for Advanced Radiation Simulation", + "organization": "Brookhaven National Laboratory (BNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/dhidas/OSCARS/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dhidas/OSCARS", + "status": "Production", + "tags": [ + "DOE CODE", + "Brookhaven National Laboratory (BNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Nanoindentation is a tool that allows the mechanical response of a variety of materials at the nano to micron length scale to be measured. Recent advances in spherical nanoindentation techniques have allowed for a more reliable and meaningful characterization of the mechanical response from nanoindentation experiments in the form on an indentation stress-strain curve. This code base, Spin, is written in MATLAB (The Mathworks, Inc.) and based on the analysis protocols developed by S.R. Kalidindi and S. Pathak [1, 2]. The inputs include the displacement, load, harmonic contact stiffness, harmonic displacement, and harmonic load from spherical nanoindentation tests in the form of an Excel (Microsoft) spreadsheet. The outputs include indentation stress-strain curves and indentation properties as well their variance due to the uncertainty of the zero-point correction in the form of MATLAB data (.mat) and figures (.png). [1] S. Pathak, S.R. Kalidindi. Spherical nanoindentation stress–strain curves, Mater. Sci. Eng R-Rep 91 (2015). [2] S.R. Kalidindi, S. Pathak. Determination of the effective zero-point and the extraction of spherical nanoindentation stress-strain curves, Acta Materialia 56 (2008) 3523-3532.", + "laborHours": 0, + "languages": [], + "name": "Spherical nanoindentation stress-strain analysis, Version 1", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jsweaver/Spin", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Arion is a library and tool set that enables researchers to holistically define test system models. To define a complex system for testing an algorithm or control requires expertise across multiple domains. Simulating a complex system requires the integration of multiple simulators and test hardware, each with their own specification languages and concepts. This requires extensive set of knowledge and capabilities. Arion was developed to alleviate this challenge. Arion is a library of Java libraries that abstracts the concepts from supported simulators into a cohesive model language that allows someone to build models to their needed level of fidelity and expertise. Arion is also a software tool that translates the users model back into the specification languages of the simulators and test hardware needed for execution.", + "laborHours": 0, + "languages": [], + "name": "Arion", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/arion/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/arion/", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A system for processing network packet capture streams, extracting metadata and generating flow records (via Argus). The system can be used by network security operators and analysts to enable forensic investigations for network security events.", + "laborHours": 0, + "languages": [], + "name": "Retro-Future", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/cardi/timefind", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MADSpython (Model analysis and decision support tools in Python) is a code in Python that streamlines the process of using data and models for analysis and decision support using the code MADS. MADS is open-source code developed at LANL and written in C/C++ (MADS; http://mads.lanl.gov; LA-CC-11-035). MADS can work with external models of arbitrary complexity as well as built-in models of flow and transport in porous media. The Python scripts in MADSpython facilitate the generation of input and output file needed by MADS as wells as the external simulators which include FEHM and PFLOTRAN. MADSpython enables a number of data- and model-based analyses including model calibration, sensitivity analysis, uncertainty quantification, and decision analysis. MADSpython will be released under GPL V3 license. MADSpython will be distributed as a Git repo at gitlab.com and github.com. MADSpython manual and documentation will be posted at http://madspy.lanl.gov.", + "laborHours": 0, + "languages": [], + "name": "MADSpython 1.x", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/losalamos/madspython", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MICOT is a tool for optimizing and controlling infrastructure systems. In includes modules for optimizing the operations of an infrastructure structure (for example optimal dispatch), designing infrastructure systems, restoring infrastructures systems, resiliency, preparing for natural disasters, interdicting networks, state estimation, sensor placement, and simulation of infrastructure systems. It implements algorithms developed at LANL that have been published in the academic community. This is a release of the of resilient design module of the MICOT.", + "laborHours": 0, + "languages": [], + "name": "Multi Infrastructure Control and Optimization Toolkit, Resilient Design Module (MICOT-RDT), version 2.X", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl-ansi/micot-rdt/blob/master/LICENCE.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl-ansi/micot-rdt", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "RmultiProcess software is designed to work with multiple correlated sensors. The characteristic that allows data to be filled in or the support to be changed is correlation, the interdependence between observations.", + "laborHours": 0, + "languages": [], + "name": "Multivariate Gaussian Process Model for Correlated Time Series in R", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/erickalendra/RmultiProcess", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Returns bitwise identical sums regardless of the order of the summands. Uses no branches and mostly integer operations. 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It is particularly well suited for browsing the results of energy systems simulation programs such as BeOpt, SAM, and PVWatts.", + "laborHours": 0, + "languages": [], + "name": "DVIEW", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/wex", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This software presents a user-provided multivariate dataset as an interactive three dimensional visualization so that the user can explore the correlation between variables in the observations and the distribution of observations among the variables.", + "laborHours": 0, + "languages": [], + "name": "Parallel Planes Information Visualization", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/infovis-parallel", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Clog is a library of charged particle stopping powers and related Coulomb logarithm processes in a plasma. The stopping power is a particularly useful quantity for plasma physics, as it measures the energy loss of per unit length of charged particle as it traverses a plasma. Clog's primary stopping power is the BPS (Brown-Preston-Singleton) theory.", + "laborHours": 0, + "languages": [], + "name": "Coulomb Logarithm, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/clog/blob/master/README.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/losalamos/clog", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "NJOY2016 is used to convert evaluations in the Evaluated Nuclear Data Files (ENDF) format into forms useful for practical applications such as fission and fusion reactor analysis, criticality safety, radiation shielding, nuclear waste management, nuclear medicine procedures, and more. It begins with the generation of pointwise libraries, including reaction and resonance reconstruction, Doppler broadening, radiation heating and damage, thermal scattering data, unresolved resonance data, and gas production. It reviews the production of libraries for the continuous-energy Monte Carlo code MCNP, multigroup neutron, photon, and particle cross sections and matrices, and photon interaction data. Uncertainty information for ENDF data is processed, including the capability for calculating covariances of resonance data, angular distributions, energy distributions, and radioactive nuclide production. NJOY can prepare and process thermal scattering data evaluations into application libraries. It can also plot cross sections, angular distributions and secondary emission spectra.", + "laborHours": 0, + "languages": [], + "name": "NJOY2016", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/njoy/NJOY21/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/njoy/NJOY21.git", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Tusas is a general / flexible software framework for solving coupled systems of onlinear partial differential equations. Tusas was originally developed for phase-field simulation of solidification. In order for Tusas to be effective, the PDEs must be compatible with structured or unstructured Lagrange (nodal) finite element discretizations and explicit (Euler) or implicit (Euler, Trapezoid, BDF2) temporal discretizations.", + "laborHours": 0, + "languages": [], + "name": "Tusas, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/chrisknewman/tusas", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This code implements the non-homogeneous poisson process model for estimating the rate of fast radio bursts. It includes modeling terms for the distribution of events in the Universe and the detection sensitivity of the radio telescopes and arrays used in observation. The model is described in LA-UR-16-26261.", + "laborHours": 0, + "languages": [], + "name": "NHPP for FRBs, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/NHPP-for-FRBs/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/losalamos/NHPP-for-FRBs", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "TBM3 is an open source package for computational simulations of quantum materials at multiple scales in length and time. The project originated to investigate the multiferroic behavior in transition-metal oxide heterostructures. The framework has also been designed to study emergent phemona in other quantum materials like 2-dimensional transition-metal dichalcogenides, graphene, topological insulators, and skyrmion in materials, etc. In the long term, we will enable the package for transport and time-resolved phenomena. TBM3 is currently a C++ based numerical tool package and framework for the design and construction of any kind of lattice structures with multi-orbital and spin degrees of freedom. The fortran based portion of the package will be added in the near future. The design of TBM3 is in a highly flexible and reusable framework and the tight-binding parameters can be modeled or informed by DFT calculations. It is currently GPU enabled and feature of CPU enabled MPI will be added in the future.", + "laborHours": 0, + "languages": [], + "name": "Tight-binding model for materials at mesoscale", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/TDIV/TBM3/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/TDIV/TBM3/", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "An example of reading the Galacticus HDF5 file in R and a demonstration of some of the features of the data.", + "laborHours": 0, + "languages": [], + "name": "Galacticus HDF5 Example, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/Galacticus-HDF5-Example/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/losalamos/Galacticus-HDF5-Example", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PcapDB is a packet capture system designed to optimize the captured data for fast search in the typical (network incident response) use case. The technology involved in this software has been submitted via the IDEAS system and has been filed as a provisional patent. It includes the following primary components: capture: The capture component utilizes existing capture libraries to retrieve packets from network interfaces. Once retrieved the packets are passed to additional threads for sorting into flows and indexing. The sorted flows and indexes are passed to other threads so that they can be written to disk. These components are written in the C programming language. search: The search components provide a means to find relevant flows and the associated packets. A search query is parsed and represented as a search tree. Various search commands, written in C, are then used resolve this tree into a set of search results. The tree generation and search execution management components are written in python. interface: The PcapDB web interface is written in Python on the Django framework. It provides a series of pages, API's, and asynchronous tasks that allow the user to manage the capture system, perform searches, and retrieve results. Web page components are written in HTML,CSS and Javascript.", + "laborHours": 0, + "languages": [], + "name": "PcapDB: Search Optimized Packet Capture, Version 0.1.0.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dirtbags/pcapdb", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The JMP Add-In TopN-PFS provides an automated tool for finding layered Pareto front to identify the top N solutions from an enumerated list of candidates subject to optimizing multiple criteria. The approach constructs the N layers of Pareto fronts, and then provides a suite of graphical tools to explore the alternatives based on different prioritizations of the criteria. The tool is designed to provide a set of alternatives from which the decision-maker can select the best option for their study goals.", + "laborHours": 0, + "languages": [], + "name": "TopN-Pareto Front Search", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/candcook/TopN-PFS/blob/master/README.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/candcook/TopN-PFS", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Code Analysis and Refactoring with Clang Tools is a small set of example code that demonstrates techniques for applying tools distributed with the open source Clang compiler. Examples include analyzing where variables are used and replacing old data structures with standard structures.", + "laborHours": 0, + "languages": [], + "name": "Code Analysis and Refactoring with Clang Tools, Version 0.1", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/losalamos/CoARCT", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A common operation in scientific visualization is to compute and render a contour of a data set. Given a function of the form f : R^d -> R, a level set is defined as an inverse image f^-1(h) for an isovalue h, and a contour is a single connected component of a level set. The Reeb graph can then be defined to be the result of contracting each contour to a single point, and is well defined for Euclidean spaces or for general manifolds. For simple domains, the graph is guaranteed to be a tree, and is called the contour tree. Analysis can then be performed on the contour tree in order to identify isovalues of particular interest, based on various metrics, and render the corresponding contours, without having to know such isovalues a priori. This code is intended to be the first data-parallel algorithm for computing contour trees. Our implementation will use the portable data-parallel primitives provided by Nvidia’s Thrust library, allowing us to compile our same code for both GPUs and multi-core CPUs. Native OpenMP and purely serial versions of the code will likely also be included. It will also be extended to provide a hybrid data-parallel / distributed algorithm, allowing scaling beyond a single GPU or CPU.", + "laborHours": 0, + "languages": [], + "name": "Hybrid Parallel Contour Trees, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://gitlab.kitware.com/vtk/vtk-m/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://gitlab.kitware.com/vtk/vtk-m", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ] + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The ParSplice code implements the Parallel Trajectory Splicing algorithm described in [1]. This method is part of the Accelerated Molecular Dynamics family of techniques developed in Los Alamos National Laboratory over the last 16 years. These methods aim at generating high-quality trajectories of ensembles of atoms in materials. ParSplice uses multiple independent replicas of the system in order to parallelize the generation of such trajectories in the time domain, enabling simulations of systems of modest size over very long timescales. ParSplice includes capabilities to store configurations of the system, to generate and distribute tasks across a large number of processors, and to harvest the results of these tasks to generate long trajectories. ParSplice is a management layer that orchestrate large number of calculations, but it does not perform the actual molecular dynamics itself; this is done by external molecular dynamics engines. [1] Danny Perez, Ekin D Cubuk, Amos Waterland, Efthimios Kaxiras, Arthur F Voter, Long-time dynamics through parallel trajectory splicing, Journal of chemical theory and computation 12, 18 (2015)", + "laborHours": 0, + "languages": [], + "name": "ParSplice, Version 1", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://gitlab.com/dannyperez/parsplice/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://gitlab.com/dannyperez/parsplice", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ] + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "TRPS code was developed for the project \"Time Resolved Phonon Spectroscopy\". Routines contained in this piece of software were specially created to model phonon generation and tracking within materials that interact with ionizing radiation, particularly applicable to the modeling of cryogenic radiation detectors for dark matter and neutrino research. These routines were created to link seamlessly with the open source Geant4 framework for the modeling of radiation transport in matter, with the explicit intent of open sourcing them for eventual integration into that code base.", + "laborHours": 0, + "languages": [], + "name": "Time Resolved Phonon Spectroscopy, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/goett/TRPS/blob/master/README.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/goett/TRPS", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "It can be challenging to interface National Instruments LabVIEW (http://www.ni.com/labview/) with EPICS (http://www.aps.anl.gov/epics/). Such interface is required when an instrument control program was developed in LabVIEW but it also has to be part of global control system. This is frequently useful in big accelerator facilities. The Channel Access Server is written in LabVIEW, so it works on any hardware/software platform where LabVIEW is available. It provides full server functionality, so any EPICS client can communicate with it.", + "laborHours": 0, + "languages": [], + "name": "EPICS Channel Access Server for LabVIEW", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://code.ornl.gov/az9/LVCA/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://code.ornl.gov/az9/LVCA", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ] + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Fortran language does not provide a standard library that implements generic containers, like linked lists, trees, dictionaries, etc. The GFC software provides an implementation of generic Fortran containers natively written in Fortran 2003/2008 language. The following containers are either already implemented or planned: Stack (done), Linked list (done), Tree (done), Dictionary (done), Queue (planned), Priority queue (planned).", + "laborHours": 0, + "languages": [], + "name": "Generic Fortran Containers (GFC)", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://gitlab.com/DmitryLyakh/GFC", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ] + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Flexible visible exploration of long, high-resolution time series from multiple sensor streams is a challenge in several domains. Falcon is a visual analytics approach that helps researchers acquire a deep understanding of patterns in log and imagery data. Falcon allows users to interactively explore large, time-oriented data sets from multiple linked perspectives. Falcon provides overviews, detailed views, and unique segmented time series visualizations with multiple levels of detail. These capabilities are applicable to the analysis of any quantitative time series.", + "laborHours": 0, + "languages": [], + "name": "Falcon: A Temporal Visual Analysis System", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/csteed/falcon", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "DFNWorks is a suite of software for generating and solving flow and transport physics on a Discrete Fracture Network (DFN). The suite is composed of three components: DFNGen: Stochastic fracture generation, mesh generation, model setup; DFNFlow: Flow solution using PFLOTRAN or FEHM control volume formulation solver; DFNTrans: Particle tracking transport; DFNGen Algorithm Description: This is a workflow that uses C++ software version for fracture generation, Python scripts written by the authors and the LaGriT software to generate computational mesh. DFNFlow The solution of flow in porous media is accomplished by coupling DFNGen output with the existing software packages FEHM and PFLOTRAN. The DFNWorks workflow involves modules and scripts that translate DFNGen output to formats compatible with FEHM and PFLOTRAN input. FEHM LA-CC-2012-083 PFLOTRAN LA-CC-09-047 LaGriT LA-CC-07-38 DFNTrans Stand-alone particle tracking algorithm that takes FEHM/PFLOTRAN flow solution as output and computes velocity field and advects particles.", + "laborHours": 0, + "languages": [], + "name": "dfnWorks, Version 2.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dfnWorks/dfnWorks-Version2.0", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This code is made to model the effect of muons in a future double beta decay array with the Geant4 software framework.", + "laborHours": 0, + "languages": [], + "name": "Muon GUORE - Geant4 MACRO for nextGEN 0vBB", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/massarczyk/Muon_GUORE/blob/master/README.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/massarczyk/Muon_GUORE", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Securely transferring timing information in the electrical grid is a critical component of securing the nation's infrastructure from cyber attacks. One solution to this problem is to use quantum information to securely transfer the timing information across sites. This software provides such an infrastructure using a standard Java webserver that pulls the quantum information from associated hardware.", + "laborHours": 0, + "languages": [], + "name": "TASQC Quantum Key Transfer Program", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ORNL/TASQC/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL/TASQC", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Finding Godsil-McKay switching sets in graphs is one way to demonstrate that a specific graph is not determined by its spectrum--the eigenvalues of its adjacency matrix. An important area of active research in pure mathematics is determining which graphs are determined by their spectra, i.e. when the spectrum of the adjacency matrix uniquely determines the underlying graph. We are interested in exploring the spectra of graphs in the Johnson scheme and specifically seek to determine which of these graphs are determined by their spectra. Given a graph G, a Godsil-McKay switching set is an induced subgraph H on 2k vertices with the following properties: I) H is regular, ii) every vertex in G/H is adjacent to either 0, k, or 2k vertices of H, and iii) at least one vertex in G/H is adjacent to k vertices in H. The software package examines each subset of a user specified size to determine whether or not it satisfies those 3 conditions. The software makes use of the massive parallel processing power of CUDA enabled GPUs. It also exploits the vertex transitivity of graphs in the Johnson scheme by reasoning that if G has a Godsil-McKay switching set, then it has a switching set which includes vertex 1. While the code (in its current state) is tuned to this specific problem, the method of examining each induced subgraph of G can be easily re-written to check for any user specified conditions on the subgraphs and can therefore be used much more broadly.", + "laborHours": 0, + "languages": [], + "name": "CUDA Enabled Graph Subset Examiner", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/jtjohnston/computational_combinatorics/blob/master/GM-switching/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jtjohnston/computational_combinatorics/", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Hybrid programming models for beyond-CMOS technologies will prove critical for integrating new computing technologies alongside our existing infrastructure. Unfortunately the software infrastructure required to enable this is lacking or not available. XACC is a programming framework for extreme-scale, post-exascale accelerator architectures that integrates alongside existing conventional applications. It is a pluggable framework for programming languages developed for next-gen computing hardware architectures like quantum and neuromorphic computing. It lets computational scientists efficiently off-load classically intractable work to attached accelerators through user-friendly Kernel definitions. XACC makes post-exascale hybrid programming approachable for domain computational scientists.", + "laborHours": 0, + "languages": [], + "name": "XACC - eXtreme-scale Accelerator Programming Framework", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL-QCI/xacc", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "There is a lack of state-of-the-art HPC simulation tools for simulating general quantum computing. Furthermore, there are no real software tools that integrate current quantum computers into existing classical HPC workflows. This product, the Quantum Virtual Machine (QVM), solves this problem by providing an extensible framework for pluggable virtual, or physical, quantum processing units (QPUs). It enables the execution of low level quantum assembly codes and returns the results of such executions.", + "laborHours": 0, + "languages": [], + "name": "Quantum Virtual Machine (QVM)", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ORNL-QCI/qvm", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL-QCI/qvm", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "There is a lack of state-of-the-art quantum computing simulation software that scales on heterogeneous systems like Titan. Tensor Network Quantum Virtual Machine (TNQVM) provides a quantum simulator that leverages a distributed network of GPUs to simulate quantum circuits in a manner that leverages recent results from tensor network theory.", + "laborHours": 0, + "languages": [], + "name": "Tensor Network Quantum Virtual Machine (TNQVM)", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ORNL-QCI/tnqvm/blob/master/examples/CMakeLists.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL-QCI/tnqvm", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "There are many common software patterns and utilities for the ORNL Quantum Computing Institute that can and should be shared across projects. Otherwise we find duplication of code which adds unwanted complexity. This is a software product seeks to alleviate this by providing common utilities such as object factories, graph data structures, parameter input mechanisms, etc., for other software products within the ORNL Quantum Computing Institute. This work enables pure basic research, has no export controlled utilities, and has no real commercial value.", + "laborHours": 0, + "languages": [], + "name": "QCI Common", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL-QCI/common", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "In this era of data-driven decisions and discovery where Big Data is producing Bigger Data, data scientists at the Oak Ridge National Laboratory are leveraging unique leadership infrastructure (e.g., Urika XA and Urika GD appliances) to develop scalable algorithms for semantic, logical and statistical reasoning with Big Data (i.e., data stored in databases as well as unstructured data in documents). ORiGAMI is a next-generation knowledge-discovery framework that is: (a) knowledge nurturing (i.e., evolves seamlessly with newer knowledge and data), (b) smart and curious (i.e. using information-foraging and reasoning algorithms to digest content) and (c) synergistic (i.e., interfaces computers with what they do best to help subject-matter-experts do their best. ORiGAMI has been demonstrated using the National Library of Medicine's SEMANTIC MEDLINE (archive of medical knowledge since 1994).", + "laborHours": 0, + "languages": [], + "name": "Oak Ridge Graph Analytics for Medical Innovation (ORiGAMI)", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ssrangan/origami/blob/master/Open%20Source%20Software%20License.pdf", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ssrangan/origami", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Portage is a software library system for physics remapping (mapping physics variables from one computational mesh to another) either within a single simulation code or between two disparate simulation codes. Portage is designed to utilize advanced-architecture compute platforms and to be easily extensible by third parties.", + "laborHours": 0, + "languages": [], + "name": "Portage, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/laristra/portage/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/laristra/portage", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "In order to support engineering analysis of Virtual Environment for Reactor Analysis (VERA) model results, the Consortium for Advanced Simulation of Light Water Reactors (CASL) needs a tool that provides visualizations of HDF5 files that adhere to the VERAOUT specification. VERAView provides an interactive graphical interface for the visualization and engineering analyses of output data from VERA. The Python-based software provides instantaneous 2D and 3D images, 1D plots, and alphanumeric data from VERA multi-physics simulations.", + "laborHours": 0, + "languages": [], + "name": "VERAView", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/CASL/VERAview", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The iESM is a simulation code that represents the physical and biological aspects of Earth's climate system, and also includes the macro-economic and demographic properties of human societies. The human aspect of the simulation code is focused in particular on the effects of human activities on land use and land cover change, but also includes aspects such as energy economies. The time frame for predictions with iESM is approximately 1970 through 2100.", + "laborHours": 0, + "languages": [], + "name": "Integrated Earth System Model (iESM)", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ACME-Climate/iESM/blob/master/license.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ACME-Climate/iESM/", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MultiMatTest is a demonstration code to support a talk and paper titled A Comparative Study of Multi-material Data Structures for Computational Physics Applications. The application times basic operations for different representations of multi-material data structures.", + "laborHours": 0, + "languages": [], + "name": "MultiMatTest, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/MultiMatTest/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LANL/MultiMatTest", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Ring current Atmosphere interactions Model with Self-Consistent magnetic field (B) is a unique code that combines a kinetic model of ring current plasma with a three dimensional force-balanced model of the terrestrial magnetic field. The kinetic portion, RAM, solves the kinetic equation to yield the bounce-averaged distribution function as a function of azimuth, radial distance, energy and pitch angle for three ion species (H+, He+, and O+) and, optionally, electrons. The domain is a circle in the Solar-Magnetic (SM) equatorial plane with a radial span of 2 to 6.5 RE. It has an energy range of approximately 100 eV to 500 KeV. The 3-D force balanced magnetic field model, SCB, balances the JxB force with the divergence of the general pressure tensor to calculate the magnetic field configuration within its domain. The domain ranges from near the Earth’s surface, where the field is assumed dipolar, to the shell created by field lines passing through the SM equatorial plane at a radial distance of 6.5 RE. The two codes work in tandem, with RAM providing anisotropic pressure to SCB and SCB returning the self-consistent magnetic field through which RAM plasma is advected.", + "laborHours": 0, + "languages": [], + "name": "Ring current Atmosphere interactions Model with Self-Consistent Magnetic field", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/RAM-SCB/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/RAM-SCB", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Mercat is a highly scalable property software package for robust of analysis of features in next-generation sequencing data and observed unique peptides from metaproteomic data. Mercat is offered in python 3.5/anaconda3, is multiparellel and is easily installed using bioconda/conda recipes. Mercat inputs include assembled contigs, raw sequence reads from any platform, and unique peptide files obtained from proteomics with feature abundance counts tables. Mercat is the only software available that allows for direct analysis of data properties without a data-dependent search tools such as BLAST or diamond for compositional analysis of whole community shotgun sequencing (e.g. metagenomes and/or metatranscriptomes) or metaproteomic data.", + "laborHours": 0, + "languages": [], + "name": "Mercat", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/mercat/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/mercat", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Pinyon is a tool that stores steps involved in creating a model derived from a collection of data. The main function of Pinyon is to store descriptions of calculations used to analyze or visualize the data in a database, and allow users to view the results of these calculations via a web interface. Additionally, users may also use the web interface to make adjustments to the calculations and rerun the entire collection of analysis steps automatically.", + "laborHours": 0, + "languages": [], + "name": "Pinyon, Version 0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/pinyon/blob/master/LICENSE.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/pinyon", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "System for converting DESIRE (Direct Executing Simulation in Real Time) simulation models to executable code models (C# / C++). These converted models are used as the basis for 2 products, one of which is the focus of this review: an engineering design interface for Fissile Solution Systems. ModelConverter.exe (C#) converts DESIRE model inputs to a C++ plug-in subclass. SimApp.exe (C# / C++) has a C++ dll that is a numerical integration engine that the Converted models plug into. The engineering design interface is a C# GUI that calls on the C++ dll to execute a particular converted model. The GUI allows the user to specify the length of a simulation, run the simulation, view data plots and data tables. Stability plots may also be produced and manipulated. The engineering design interface will be released as source code and executable; the model converter source is also intended for release.", + "laborHours": 0, + "languages": [], + "name": "SimApp 1.8.x", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/determan/SimApp1.8x/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/determan/SimApp1.8x.git", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Grappa is a latency tolerant runtime system for mass market computer systems comprised of multiple nodes having x86 multicore processors and infiniband interconnect. Grappa is designed to enable in-memory irregular applications written in the C++ programming language to scale up on multiprocessor systems. Grappa addresses the load balance, communication, and synchronization challenges posed by running applications that do not partition evenly across large systems. Two mechanisms are essential to its success: fast task switching and message aggregation. Fast task switching enables processors to tolerate communication and synchronization delays; aggregation sustains high bandwidth on low injection rate networks.", + "laborHours": 0, + "languages": [], + "name": "A Latency Tolerant Runtime System for Mass Market Computer Systems", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/uwsampa/grappa", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The GIBS software program is a Grand Canonical Monte Carlo (GCMC) simulation program (written in C++) that can be used for 1) computing the excess chemical potential of ions and the mean activity coefficients of salts in homogeneous electrolyte solutions; and, 2) for computing the distribution of ions around fixed macromolecules such as, nucleic acids and proteins. The solvent can be represented as neutral hard spheres or as a dielectric continuum. The ions are represented as charged hard spheres that can interact via Coulomb, hard-sphere, or Lennard-Jones potentials. In addition to hard-sphere repulsions, the ions can also be made to interact with the solvent hard spheres via short-ranged attractive square-well potentials.", + "laborHours": 0, + "languages": [], + "name": "A Grand Canonical Monte Carlo simulation program for computing ion distributions around biomolecules in hard sphere solvents", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://store.pnnl.gov/content/30876-615-os", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Electrostatics/GIBS", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Futility package contains the following: 1) Definition of the size of integers and real numbers; 2) A generic Unit test harness; 3) Definitions for some basic extensions to the Fortran language: arbitrary length strings, a parameter list construct, exception handlers, command line processor, timers; 4) Geometry definitions: point, line, plane, box, cylinder, polyhedron; 5) File wrapper functions: standard Fortran input/output files, Fortran binary files, HDF5 files; 6) Parallel wrapper functions: MPI, and Open MP abstraction layers, partitioning algorithms; 7) Math utilities: BLAS, Matrix and Vector definitions, Linear Solver methods and wrappers for other TPLs (PETSC, MKL, etc), preconditioner classes; 8) Misc: random number generator, water saturation properties, sorting algorithms.", + "laborHours": 0, + "languages": [], + "name": "Futility", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/CASL/Futility", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The software provides a real-time processing system for sonar to detect and track animals, and to extract water column biomass statistics in order to facilitate continuous monitoring of an underwater environment. The Nekton Interaction Monitoring System (NIMS) extracts and archives tracking and backscatter statistics data from a real-time stream of data from a sonar device. NIMS also sends real-time tracking messages over the network that can be used by other systems to generate other metrics or to trigger instruments such as an optical video camera. A web-based user interface provides remote monitoring and control. NIMS currently supports three popular sonar devices: M3 multi-beam sonar (Kongsberg), EK60 split-beam echo-sounder (Simrad) and BlueView acoustic camera (Teledyne).", + "laborHours": 0, + "languages": [], + "name": "Nekton Interaction Monitoring System", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/nims/blob/master/LICENSE.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/nims", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "TESP combines existing domain simulators in the electric power grid, with new transactive agents, growth models and evaluation scripts. The existing domain simulators include GridLAB-D for the distribution grid and single-family residential buildings, MATPOWER for transmission and bulk generation, and EnergyPlus for large buildings. More are planned for subsequent versions of TESP. The new elements are: TEAgents - simulate market participants and transactive systems for market clearing. Some of this functionality was extracted from GridLAB-D and implemented in Python for customization by PNNL and others; Growth Model - a means for simulating system changes over a multiyear period, including both normal load growth and specific investment decisions. Customizable in Python code; and Evaluation Script - a means of evaluating different transactive systems through customizable post-processing in Python code. TESP provides a method for other researchers and vendors to design transactive systems, and test them in a virtual environment. It allows customization of the key components by modifying Python code.", + "laborHours": 0, + "languages": [], + "name": "Transactive Energy Simulation Platform", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/tesp/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/tesp", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Haystack is a software agent platform for user emulation. We are leveraging python and the SPADE software packages to develop an architecture and platform where software agents can be sent actuation behaviors, configured with different behavior profiles (time based, event based, probability based, etc.), and controlled/monitored from a central control unit. The haystack agent platform provides the ability to model and simulate user behavior in cyber systems. This eliminates the need to fund real users to provide this interaction, provides control such that researchers can randomize, hold-steady, or model whatever behavior that want to study without running afoul of IRB requirements, and provides a documented truth that enables understanding what happened in and experiment and provides for repeatability.", + "laborHours": 0, + "languages": [], + "name": "Haystack", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/haystack", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This code solves the gray thermal radiative transfer (TRT) equations in parallel using simple opacities and Cartesian meshes. Although Branson solves the TRT equations it is not designed to model radiation transport: Branson contains simple physics and does not have a multigroup treatment, nor can it use physical material data. The opacities have are simple polynomials in temperature there is a limited ability to specify complex geometries and sources. Branson was designed only to capture the computational demands of production IMC codes, especially in large parallel runs. It was also intended to foster collaboration with vendors, universities and other DOE partners. Branson is similar in character to the neutron transport proxy-app Quicksilver from LLNL, which was recently open-sourced.", + "laborHours": 0, + "languages": [], + "name": "Branson: A Mini-App for Studying Parallel IMC, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/branson/blob/develop/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/branson", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "WARP, which can stand for ``Weaving All the Random Particles,'' is a three-dimensional (3D) continuous energy Monte Carlo neutron transport code developed at UC Berkeley to efficiently execute on NVIDIA graphics processing unit (GPU) platforms. WARP accelerates Monte Carlo simulations while preserving the benefits of using the Monte Carlo method, namely, that very few physical and geometrical simplifications are applied. WARP is able to calculate multiplication factors, neutron flux distributions (in both space and energy), and fission source distributions for time-independent neutron transport problems. It can run in both criticality or fixed source modes, but fixed source mode is currently not robust, optimized, or maintained in the newest version. WARP can transport neutrons in unrestricted arrangements of parallelepipeds, hexagonal prisms, cylinders, and spheres. The goal of developing WARP is to investigate algorithms that can grow into a full-featured, continuous energy, Monte Carlo neutron transport code that is accelerated by running on GPUs. The crux of the effort is to make Monte Carlo calculations faster while producing accurate results. Modern supercomputers are commonly being built with GPU coprocessor cards in their nodes to increase their computational efficiency and performance. GPUs execute efficiently on data-parallel problems, but most CPU codes, including those for Monte Carlo neutral particle transport, are predominantly task-parallel. WARP uses a data-parallel neutron transport algorithm to take advantage of the computing power GPUs offer.", + "laborHours": 0, + "languages": [], + "name": "WARP", + "organization": "Office of Scientific and Technical Information (OSTI)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/sellitforcache/warp/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sellitforcache/warp", + "status": "Production", + "tags": [ + "DOE CODE", + "Office of Scientific and Technical Information (OSTI)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Memory systems are expected to get evermore complicated in the coming years, and it isn't clear exactly what form that complexity will take. On the software side, a simple, flexible way of identifying and working with memory pools is needed. Additionally, most developers seek code portability and do not want to learn the intricacies of complex memory. Hence, we believe that a library for interacting with complex memory systems should expose two kinds of abstraction: First, a low-level, mechanism-based interface designed for the runtime or advanced user that wants complete control, with its focus on simplified representation but with all decisions left to the caller. Second, a high-level, policy-based interface designed for ease of use for the application developer, in which we aim for best-practice decisions based on application intent. We have developed such a library, called SICM: Simplified Interface to Complex Memory.", + "laborHours": 0, + "languages": [], + "name": "Simplified Interface to Complex Memory Hierarchies 1.x", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/SICM", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "CHROTRAN is a fork of the widely-used PFLOTRAN flow and reactive transport numerical simulation code. It implements custom physics and chemistry appropriate to the design of in-situ reduction of heavy metals such as Cr(VI) in groundwater. CHROTRAN includes full dynamics for five species: the metal to be remediated, an electron donor, biofilm, a nontoxic conservative bio-inhibitor, and a biocide. Direct abiotic reduction by donor-metal interaction as well as donor-driven biomass growth and bio-reduction are modeled, along with crucial processes such as donor sorption, and biofilm inactivation. The software implementation handles heterogeneous flow fields, arbitrarily many chemical species and amendment injection points, and features full coupling between flow and reactive transport, allowing for assessment of the effect of bio-fouling.", + "laborHours": 0, + "languages": [], + "name": "CHROTRAN, 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/scottkalevhansen/CHROTRAN-release", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MASS1 simulates open channel hydrodynamics and transport in branched channel networks, using cross-section averaged forms of the continuity, momentum, and convection diffusion equations. Thermal energy transport (temperature), including meteorological influences is supported. The thermodynamics of total dissolved gas (TDG) can be directly simulated. MASS1 has been developed over the last 20 years. It is currently being used on DOE projects that require MASS1 to beopen source. Hence, the authors would like to distribute MASS1 in source form.", + "laborHours": 0, + "languages": [], + "name": "Modular Aquatic Simulation System 1D", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/mass1/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/mass1/", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Synthetic Proxy Infrastructure for Task Evaluation is a proxy application designed to support application developers in gauging the performance of various task granularities when determining how best to utilize task based programming models.The infrastructure is designed to provide examples of common communication patterns with a synthetic workload intended to provide performance data to evaluate programming model and platform overheads for the purpose of determining task granularity for task decomposition purposes. This is presented as a reference implementation of a proxy application with run-time configurable input and output task dependencies ranging from an embarrassingly parallel scenario to patterns with stencil-like dependencies upon their nearest neighbors. Once all, if any, inputs are satisfied each task will execute a synthetic workload (a simple DGEMM of in this case) of varying size and output all, if any, outputs to the next tasks.The intent is for this reference implementation to be implemented as a proxy app in different programming models so as to provide the same infrastructure and to allow for application developers to simulate their own communication needs to assist in task decomposition under various models on a given platform.", + "laborHours": 0, + "languages": [], + "name": "Synthetic Proxy Infrastructure for Task Evaluation", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/spite/blob/master/LICENSE.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/spite", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The CosmicEmu implements a Gaussian process emulation scheme to predict the dark matter and dark matter + neutrino power spectra over a range of physical parameters that describe the composition and evolution of the Universe. The procedure can produce thousands of spectra per second, much faster than the complex n-body simulations used to produce the training set, which can take weeks per simulation. The training simulations, their design, and the general scheme is described in Lawrence et al. (2010), Heitmann et al. (2014), Heitmann et al. (2016), and an upcoming paper.", + "laborHours": 0, + "languages": [], + "name": "CosmicEmu, Version 2.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/CosmicEmu/blob/master/LICENSE.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/CosmicEmu", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "HELICS is designed to support very-large-scale (100,000+ federates) cosimulations with off-the-shelf power-system, communication, market, and end-use tools. Other key features include cross platform operating system support, the integration of both event driven (e.g., packetized communication) and time-series (e.g., power flow) simulations, and the ability to co-iterate among federates to ensure physical model convergence at each time step.", + "laborHours": 0, + "languages": [], + "name": "Hierarchical Engine for Large-scale Infrastructure Co-Simulation", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/GMLC-TDC/HELICS-src/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/GMLC-TDC/HELICS-src", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ECoG ClusterFlow is a novel multi-scale visual analysis system for the detailed exploration of dynamic functional connectivity graphs obtained through electrocorticography.", + "laborHours": 0, + "languages": [], + "name": "ECoG Cluster Flow v1.0", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/sugeerth/ECoG-ClusterFlow/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sugeerth/ECoG-ClusterFlow/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Small Python package to compute tomographic reconstructions using a reconstruction method published in: Pelt, D.M., & De Andrade, V. (2017). Improved tomographic reconstruction of large-scale real-world data by filter optimization. Advanced Structural and Chemical Imaging 2: 17; and Pelt, D. M., & Batenburg, K. J. (2015). Accurately approximating algebraic tomographic reconstruction by filtered backprojection. In Proceedings of The 13th International Meeting on Fully Three-Dimensional Image Reconstruction in Radiology and Nuclear Medicine (pp. 158-161).", + "laborHours": 0, + "languages": [], + "name": "SIRT-FILTER v1.0.0", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://gitlab.com/dmpelt/sirtfilter/blob/master/license.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://gitlab.com/dmpelt/sirtfilter", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ] + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "New contributions to the existing open source project called 'progressbars2.\" Improvements were created for use in JBEI software, but are generally useful to the open source software community.", + "laborHours": 0, + "languages": [], + "name": "progressbar2", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/WoLpH/python-progressbar", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Equilibrium thermodynamics underpins many of the technologies used throughout theoretical physics, yet verification of the various theoretical models in the open literature remains challenging. EOSlib provides a single, consistent, verifiable implementation of these models, in a single, easy-to-use software package. It consists of three parts: a software library implementing various published equation-of-state (EOS) models; a database of fitting parameters for various materials for these models; and a number of useful utility functions for simplifying thermodynamic calculations such as computing Hugoniot curves or Riemann problem solutions. Ready availability of this library will enable reliable code-to- code testing of equation-of-state implementations, as well as a starting point for more rigorous verification work. EOSlib also provides a single, consistent API for its analytic and tabular EOS models, which simplifies the process of comparing models for a particular application.", + "laborHours": 0, + "languages": [], + "name": "EOSlib, Version 3", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/EOSlib/blob/github/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/EOSlib", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Virtual Machine Builder is a graphical user interface for use and modification of virtual machine templates using Hashi Corp packer to perform virtual machine creation.", + "laborHours": 0, + "languages": [], + "name": "Virtual Machine Builder", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/csd-dev-tools/VmBuilder", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Jali is a parallel unstructured mesh infrastructure library designed for use by multi-physics simulations. It supports 2D and 3D arbitrary polyhedral meshes distributed over hundreds to thousands of nodes. Jali can read write Exodus II meshes along with fields and sets on the mesh and support for other formats is partially implemented or is (https://github.com/MeshToolkit/MSTK), an open source general purpose unstructured mesh infrastructure library from Los Alamos National Laboratory. While it has been made to work with other mesh frameworks such as MOAB and STKmesh in the past, support for maintaining the interface to these frameworks has been suspended for now. Jali supports distributed as well as on-node parallelism. Support of on-node parallelism is through direct use of the the mesh in multi-threaded constructs or through the use of \"tiles\" which are submeshes or sub-partitions of a partition destined for a compute node.", + "laborHours": 0, + "languages": [], + "name": "Jali - Unstructured Mesh Infrastructure for Multi-Physics Applications", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/jali", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "At exascale, the challenge becomes to develop applications that run at scale and use exascale platforms reliably, efficiently, and flexibly. Workflows become much more complex because they must seamlessly integrate simulation and data analytics. They must include down-sampling, post-processing, feature extraction, and visualization. Power and data transfer limitations require these analysis tasks to be run in-situ or in-transit. We expect successful workflows will comprise multiple linked simulations along with tens of analysis routines. Users will have limited development time at scale and, therefore, must have rich tools to develop, debug, test, and deploy applications. At this scale, successful workflows will compose linked computations from an assortment of reliable, well-defined computation elements, ones that can come and go as required, based on the needs of the workflow over time. We propose a novel framework that utilizes both virtual machines (VMs) and software containers to create a workflow system that establishes a uniform build and execution environment (BEE) beyond the capabilities of current systems. In this environment, applications will run reliably and repeatably across heterogeneous hardware and software. Containers, both commercial (Docker and Rocket) and open-source (LXC and LXD), define a runtime that isolates all software dependencies from the machine operating system. Workflows may contain multiple containers that run different operating systems, different software, and even different versions of the same software. We will run containers in open-source virtual machines (KVM) and emulators (QEMU) so that workflows run on any machine entirely in user-space. On this platform of containers and virtual machines, we will deliver workflow software that provides services, including repeatable execution, provenance, checkpointing, and future proofing. We will capture provenance about how containers were launched and how they interact to annotate workflows for repeatable and partial re-execution. We will coordinate the physical snapshots of virtual machines with parallel programming constructs, such as barriers, to automate checkpoint and restart. We will also integrate with HPC-specific container runtimes to gain access to accelerators and other specialized hardware to preserve native performance. Containers will link development to continuous integration. When application developers check code in, it will automatically be tested on a suite of different software and hardware architectures.", + "laborHours": 0, + "languages": [], + "name": "Build and Execute Environment", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lanl/BEE/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/BEE", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Our Python module, colormap_module, presented here can be used to analyze and manipulate colormaps and has two main aims: (i) compare existing and new custom colormaps quantitatively by comparing their values in a color space, called CAM02-UCS, that directly shows how a human perceives their hue, saturation, and lightness values and (ii) create isoluminant colormaps from existing or custom colormaps and (iii) mix isoluminant colormap data with a 4th dimension of data by manipulating lightness values across the image and present the new image. Our module was designed to be a tool for the community to use as a whole, allowing scientists to present, analyze, and manipulate colormaps they have created and/or decided to use for a particular type of data. By being able to do this, the scientific community as a whole will think more about the colormaps they choose, see why particular colormaps are bad to use for certain types of data, and move toward using colormaps our eyes can interpret much more efficiently.", + "laborHours": 0, + "languages": [], + "name": "colormap_util", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/jamienunez/cmaputil/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jamienunez/cmaputil", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Route Sanitizer is ORNL's connected vehicle moving object database de-identification tool and a graphical user interface to ORNL's connected vehicle de-identification algorithm. It uses the Google Chrome (soon to be Electron) platform so it will run on different computing platforms. The basic de-identification strategy is record redaction: portions of a vehicle trajectory (e.g. sequences of precise temporal spatial records) are removed. It does not alter retained records. The algorithm uses custom techniques to find areas within trajectories that may be considered private, then it suppresses those in addition to enough of the trajectory surrounding those locations to protect against \"inference attacks\" in a mathematically sound way. Map data is integrated into the process to make this possible.", + "laborHours": 0, + "languages": [], + "name": "Route Sanitizer: Connected Vehicle Trajectory De-Identification Tool", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/jmcarter9t/route-sanitizer", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "EDGE bioinformatics was developed to help biologists process Next Generation Sequencing data (in the form of raw FASTQ files), even if they have little to no bioinformatics expertise. EDGE is a highly integrated and interactive web-based platform that is capable of running many of the standard analyses that biologists require for viral, bacterial/archaeal, and metagenomic samples. EDGE provides the following analytical workflows: quality trimming and host removal, assembly and annotation, comparisons against known references, taxonomy classification of reads and contigs, whole genome SNP-based phylogenetic analysis, and PCR analysis. EDGE provides an intuitive web-based interface for user input, allows users to visualize and interact with selected results (e.g. JBrowse genome browser), and generates a final detailed PDF report. Results in the form of tables, text files, graphic files, and PDFs can be downloaded. A user management system allows tracking of an individual’s EDGE runs, along with the ability to share, post publicly, delete, or archive their results.", + "laborHours": 0, + "languages": [], + "name": "Enabling the democratization of the genomics revolution with a fully integrated web-based bioinformatics platform, Version 1.5 and 1.x.", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LANL-Bioinformatics/EDGE.git", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "christopher.kowalczyk@inl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A Git server (GitHub, GitLab, BitBucket) sends event notifications to the Civet server. These are either a \" Pull Request\" or a \"Push\" notification. Civet then checks the database to determine what tests need to be run and marks them as ready to run. Civet clients, running on dedicated machines, query the server for available jobs that are ready to run. When a client gets a job it executes the scripts attached to the job and report back to the server the output and exit status. When the client updates the server, the server will also update the Git server with the result of the job, as well as updating the main web page.", + "laborHours": 0, + "languages": [], + "name": "CIVET: Continuous Integration, Verification, Enhancement, and Testing", + "organization": "Idaho National Laboratory (INL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/idaholab/civet", + "status": "Production", + "tags": [ + "DOE CODE", + "Idaho National Laboratory (INL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Xanthos is a Python package designed to quantify and analyze global water availability in history and in future at 0.5° × 0.5° spatial resolution and a monthly time step under a changing climate. Its performance was also tested through real applications. It is open-source, extendable and convenient to researchers who work on long-term climate data for studies of global water supply, and Global Change Assessment Model (GCAM). This package integrates inherent global gridded data maps, I/O modules, Water-Balance Model modules and diagnostics modules by user-defined configuration.", + "laborHours": 0, + "languages": [], + "name": "Xanthos", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/JGCRI/xanthos", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "WindSE is a tool for modeling atmospheric fluid flow within a wind plant and performing optimization of the turbine positions or operating settings.", + "laborHours": 0, + "languages": [], + "name": "WindSE", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ryannking/WindSE", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Functionally-Assembled Terrestrial Ecosystem Simulator (FATES) is a vegetation model for use in Earth system models (ESMs). The model includes a size- and age-structured representation of tree dynamics, competition between functionally diverse plant functional types, and the biophysics underpinning plant growth, competition, mortality, as well as the carbon, water, and energy exchange with the atmosphere. The FATES model is designed as a modular vegetation model that can be integrated within a host land model for inclusion in ESMs. The model is designed for use in global change studies to understand and project the responses and feedbacks between terrestrial ecosystems and the Earth system under changing climate and other forcings.", + "laborHours": 0, + "languages": [], + "name": "The Functionally-Assembled Terrestrial Ecosystem Simulator Version 1", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/NGEET/fates-release/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NGEET/fates-release", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Charliecloud is a set of scripts to let users run a virtual cluster of virtual machines (VMs) on a desktop or supercomputer. Key functions include: 1. Creating (typically by installing an operating system from vendor media) and updating VM images; 2. Running a single VM; 3. Running multiple VMs in a virtual cluster. The virtual machines can talk to one another over the network and (in some cases) the outside world. This is accomplished by calling external programs such as QEMU and the Virtual Distributed Ethernet (VDE) suite. The goal is to let users have a virtual cluster containing nodes where they have privileged access, while isolating that privilege within the virtual cluster so it cannot affect the physical compute resources. Host configuration enforces security; this is not included in Charliecloud, though security guidelines are included in its documentation and Charliecloud is designed to facilitate such configuration. Charliecloud manages passing information from host computers into and out of the virtual machines, such as parameters of the virtual cluster, input data specified by the user, output data from virtual compute jobs, VM console display, and network connections (e.g., SSH or X11). Parameters for the virtual cluster (number of VMs, RAM and disk per VM, etc.) are specified by the user or gathered from the environment (e.g., SLURM environment variables). Example job scripts are included. These include computation examples (such as a \"hello world\" MPI job) as well as performance tests. They also include a security test script to verify that the virtual cluster is appropriately sandboxed. Tests include: 1. Pinging hosts inside and outside the virtual cluster to explore connectivity; 2. Port scans (again inside and outside) to see what services are available; 3. Sniffing tests to see what traffic is visible to running VMs; 4. IP address spoofing to test network functionality in this case; 5. File access tests to make sure host access permissions are enforced. This test script is not a comprehensive scanner and does not test for specific vulnerabilities. Importantly, no information about physical hosts or network topology is included in this script (or any of Charliecloud); while part of a sensible test, such information is specified by the user when the test is run. That is, one cannot learn anything about the LANL network or computing infrastructure by examining Charliecloud code.", + "laborHours": 0, + "languages": [], + "name": "Charliecloud", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/hpc/charliecloud", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Los Alamos sea ice model (CICE) is the result of an effort to develop a computationally efficient sea ice component for a fully coupled atmosphere–land–ocean–ice global climate model. It was originally designed to be compatible with the Parallel Ocean Program (POP), an ocean circulation model developed at Los Alamos National Laboratory for use on massively parallel computers. CICE has several interacting components: a vertical thermodynamic model that computes local growth rates of snow and ice due to vertical conductive, radiative and turbulent fluxes, along with snowfall; an elastic-viscous-plastic model of ice dynamics, which predicts the velocity field of the ice pack based on a model of the material strength of the ice; an incremental remapping transport model that describes horizontal advection of the areal concentration, ice and snow volume and other state variables; and a ridging parameterization that transfers ice among thickness categories based on energetic balances and rates of strain. It also includes a biogeochemical model that describes evolution of the ice ecosystem. The CICE sea ice model is used for climate research as one component of complex global earth system models that include atmosphere, land, ocean and biogeochemistry components. It is also used for operational sea ice forecasting in the polar regions and in numerical weather prediction models.", + "laborHours": 0, + "languages": [], + "name": "CICE, The Los Alamos Sea Ice Model", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/CICE-Consortium/CICE/blob/master/LICENSE.pdf", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/CICE-Consortium/CICE/", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2018-05-23" + }, + "description": "URBANopt is a user interface for creating and running district and city scale building energy simulations. The framework is built around the OpenStudio Urban Measures which are part of the OpenStudio project. Building footprints, building height, building type, and other data can be imported from public records or other sources. Footprints and locations for new buildings and district systems can also be specified. OpenStudio Measures are used to create starting point energy models and to model energy design features and efficiency measures for each building. URBANopt allows a user to pose several scenarios such as “what if 30% of the commercial retail buildings added roof top solar” or “what if all elementary schools converted to ground source heat pumps” and then visualize the impacts at a district or city scale. URBANopt is capable of modeling existing buildings, new construction, and district energy systems. URBANopt can be used to explore options for achieving Zero Energy across a collection of buildings (e.g., Zero Energy Districts).", + "homepageURL": "https://www.nrel.gov/buildings/urbanopt.html", + "laborHours": 0, + "languages": [], + "name": "Urban Renewable Building And Neighborhood Optimization", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://www.nrel.gov/buildings/urbanopt.html", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ] + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "FleCSPH is a multi-physics compact application that exercises FleCSI parallel data structures for tree-based particle methods. In particular, FleCSPH implements a smoothed-particle hydrodynamics (SPH) solver for the solution of Lagrangian problems in astrophysics and cosmology. FleCSPH includes support for gravitational forces using the fast multipole method (FMM).", + "laborHours": 0, + "languages": [], + "name": "FleCSPH - a parallel and distributed SPH implementation based on the FleCSI framework", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/laristra/flecsph", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "In most Home Energy Management Systems (HEMS) available in the market, different devices running different communication protocols cannot interact with each other and exchange information. As a result of this integration, the information about different devices running different communication protocol can be accessible by other agents and devices running on VOLTTRON platform. The integration process can be used by any HEMS available in the market regardless of the programming language they use. If the existing HEMS provides an Application Programming Interface (API) based on the RESTFul architecture, that API can be used for integration. Our candidate HEMS in this project is home-assistant (Hass). An agent is implemented which can communicate with the Hass API and receives information about the devices loaded on the API. The agent publishes the information it receives on the VOLTTRON message bus so other agents can have access to this information. On the other side, for each type of devices, an agent is implemented such as Climate Agent, Lock Agent, Switch Agent, Light Agent, etc. Each of these agents is subscribed to the messages published on the message bus about their associated devices. These agents can also change the status of the devices by sending appropriate service calls to the API. Other agents and services on the platform can also access this information and coordinate their decision-making process based on this information.", + "laborHours": 0, + "languages": [], + "name": "Home Energy Management System - VOLTTRON Integration", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/VOLTTRON/volttron-applications/blob/master/ornl/HomeAssistant-VOLTTRON-Integration-Agents/License", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/VOLTTRON/volttron-applications/", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The VisIT Java Client (JVC) library is a lightweight thin client that is designed and written purely in the native language of Java (the Python & JavaScript versions of the library use the same concept) and communicates with any new unmodified standalone version of VisIT, a high performance computing parallel visualization toolkit, over traditional or web sockets and dynamically determines capabilities of the running VisIT instance whether local or remote.", + "laborHours": 0, + "languages": [], + "name": "Visualization Software for VisIT Java Client", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/visit-vis/visit_java_client/blob/master/gov.lbnl.visit.swt/License.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/visit-vis/visit_java_client", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Knowledge graphs represent information as entities and relationships between them. For tasks such as natural language question answering or automated analysis of text, a knowledge graph provides valuable context to establish the specific type of entities being discussed. It allow us to derive better context about newly arriving information and leads to intelligent reasoning capabilities. We address two primary needs: A) Automated construction of knowledge graphs is a technically challenging, expensive process; and B) The ability to synthesize new information by monitoring newly emerging knowledge is a transformational capability that does not exist in state of the art systems.", + "laborHours": 0, + "languages": [], + "name": "NOUS: A Knowledge Graph Management System", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/streaming-graphs/NOUS", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/streaming-graphs/NOUS", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Pececillo is a proxy-app for the open source Truchas metal processing code (LA-CC-15-097). It implements many of the physics models used in Truchas: free-surface, incompressible Navier-Stokes fluid dynamics (e.g., water waves); heat transport, material phase change, view factor thermal radiation; species advection-diffusion; quasi-static, elastic/plastic solid mechanics with contact; electomagnetics (Maxwell's equations). The models are simplified versions that retain the fundamental computational complexity of the Truchas models while omitting many non-essential features and modeling capabilities. The purpose is to expose Truchas algorithms in a greatly simplified context where computer science problems related to parallel performance on advanced architectures can be more easily investigated. While Pececillo is capable of performing simulations representative of typical Truchas metal casting, welding, and additive manufacturing simulations, it lacks many of the modeling capabilites needed for real applications.", + "laborHours": 0, + "languages": [], + "name": "Pececillo", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://gitlab.com/truchas/pececillo/blob/master/LICENSE.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://gitlab.com/truchas/pececillo", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ] + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Graphical user interface for use and modification of virtual machine templates using Hashi Corp packer to perform virtual machine creation.", + "laborHours": 0, + "languages": [], + "name": "ClockworkVMs", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/csd-dev-tools/VmBuilder", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The open source Project Haystack initiative defines meta data and communication standards related to data from buildings and intelligent devices. The Project Haystack REST API defines standard formats and operations for exchanging Haystack tagged data over HTTP. The HaystackRuby gem wraps calls to this REST API to enable Ruby application to easily integrate data hosted on a Project Haystack compliant server. The HaystackRuby gem was developed at the National Renewable Energy Lab to support applications related to campus energy. We hope that this tool may be useful to others.", + "laborHours": 0, + "languages": [], + "name": "Haystack-Ruby", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/haystack_ruby", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "High-Throughput software platform to create/launch/analyze physics-related calculations. The front-end is a python API which allows the user to create any conceivable first-principles physics calculation. Is is coupled to an ipython interface to launch and retrieve large number of calculations. It was successfully used in high-throughput calculations of point defect formation enthalpies, compound formation enthalpies, and a genetic algorithm search of direct-gap silicon/germanium structures.", + "laborHours": 0, + "languages": [], + "name": "LaDa™", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://pylada.github.io/pylada/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/mdavezac/LaDa", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "The MAGMA software package is a package created in the R scripting language that reads a SQL database and outputs tables and figures of important data. The SQL database is created by another R package called “rplexos” and uses the .zip solution file output by PLEXOS, which is commercially available production cost modeling software.", + "laborHours": 0, + "languages": [], + "name": "Multi-area Grid Metrics Analyzer", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/NREL/MAGMA", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/MAGMA", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Knife-ovirt is code building on the chef, knife-cloud, fog, rbovirt projects that allows deployment of virtual machines on an ovirt cluster, and immediately bootstrap them into a chef managed infrastructure. 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The Decision-support for Digester-Algae IntegRation for Improved Environmental and Economic Sustainability (DAIRIEES) technoeconomic model will play a key role in evaluating the effectiveness and viability of this system to achieve economic and environmental sustainability by the dairy industry.", + "laborHours": 0, + "languages": [], + "name": "Decision Support For Digester Algae Integration For Improved Environmental And Economic Sustainability", + "organization": "Idaho National Laboratory (INL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mpl-2.0", + "name": "MPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/IdahoLabCuttingBoard/DAIRIEES", + "status": "Production", + "tags": [ + "DOE CODE", + "Idaho National Laboratory (INL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "christopher.kowalczyk@inl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Water-Energy Simulation Toolset (WEST) is an interactive simulation model that helps visualize impacts of different stakeholders on water quantity and quality of a watershed. The case study is applied for the Snake River Basin with the fictional name Cutthroat River Basin. There are four groups of stakeholders of interest: hydropower, agriculture, flood control, and environmental protection. Currently, the quality component depicts nitrogen-nitrate contaminant. Users can easily interact with the model by changing certain inputs (climate change, fertilizer inputs, etc.) to observe the change over the entire system. Users can also change certain parameters to test their management policy.", + "laborHours": 0, + "languages": [], + "name": "Water Energy Simulation Toolset", + "organization": "Idaho National Laboratory (INL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/IdahoLabCuttingBoard/WEST", + "status": "Production", + "tags": [ + "DOE CODE", + "Idaho National Laboratory (INL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "christopher.kowalczyk@inl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This program has been designed to assist with the tracking of a sample from one analytical instrument to another such as SEM, microscopes, micro x-ray diffraction and other instruments where particular positions/locations on the sample are examined, photographed, etc. The software is designed to easily enter the position of fiducials and locations of interest such that in a future session in the same of different instrument the positions of interest can be re-found through using the known location fiducials in the current and reference session to transform the point into the current sessions coordinate system. The software is dialog box driven guiding the user through the necessary data entry and program choices. Information is stored in a series of text based extensible markup language (XML) files.", + "laborHours": 0, + "languages": [], + "name": "Cross-instrument Analysis Correlation Software", + "organization": "Idaho National Laboratory (INL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mpl-2.0", + "name": "MPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/IdahoLabResearch/CIACS", + "status": "Production", + "tags": [ + "DOE CODE", + "Idaho National Laboratory (INL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "AMG is a parallel algebraic multigrid solver for linear systems arising from problems on unstructured grids. It has been derived directly from the BoomerAMG solver in the hypre library, a large linear solvers library that is being developed in the Center for Applied Scientific Computing (CASC) at LLNL and is very similar to the AMG2013 benchmark with additional optimizations. The driver provided in the benchmark can build various test problems. The default problem is a Laplace type problem with a 27-point stencil, which can be scaled up and is designed to solve a very large problem. A second problem simulates a time dependent problem, in which successively various smnllcr systems are solved.", + "laborHours": 0, + "languages": [], + "name": "Algebraic Multigrid Benchmark", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/AMG", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The ProvEn Software is designed to analyze and monitor distributed scientific workflow application behavior in the context of its environment.", + "laborHours": 0, + "languages": [], + "name": "Provenance Environment Services Software", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/ProvenanceEnvironment", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This is the repository for Building Energy Management Open Source Software (BEMOSS), which is an open source operating system that is engineered to improve sensing and control of equipment in small- and medium-sized commercial buildings. BEMOSS offers the following key features: (1) Open source, open architecture – BEMOSS is an open source operating system that is built upon VOLTTRON – a distributed agent platform developed by Pacific Northwest National Laboratory (PNNL). BEMOSS was designed to make it easy for hardware manufacturers to seamlessly interface their devices with BEMOSS. Software developers can also contribute to adding additional BEMOSS functionalities and applications. (2) Plug & play – BEMOSS was designed to automatically discover supported load controllers (including smart thermostats, VAV/RTUs, lighting load controllers and plug load controllers) in commercial buildings. (3) Interoperability – BEMOSS was designed to work with load control devices form different manufacturers that operate on different communication technologies and data exchange protocols. (4) Cost effectiveness – Implementation of BEMOSS deemed to be cost-effective as it was built upon a robust open source platform that can operate on a low-cost single-board computer, such as Odroid. This feature could contribute to its rapid deployment in small- or medium-sized commercial buildings. (5) Scalability and ease of deployment – With its multi-node architecture, BEMOSS provides a distributed architecture where load controllers in a multi-floor and high occupancy building could be monitored and controlled by multiple single-board computers hosting BEMOSS. This makes it possible for a building engineer to deploy BEMOSS in one zone of a building, be comfortable with its operation, and later on expand the deployment to the entire building to make it more energy efficient. (6) Ability to provide local and remote monitoring – BEMOSS provides both local and remote monitoring ability with role-based access control. (7) Security – In addition to built-in security features provided by VOLTTRON, BEMOSS provides enhanced security features, including BEMOSS discovery approval process, encrypted core-to-node communication, thermostat anti-tampering feature and many more. (8) Support from the Advisory Committee – BEMOSS was developed in consultation with an advisory committee from the beginning of the project. BEMOSS advisory committee comprises representatives from 22 organizations from government and industry.", + "laborHours": 0, + "languages": [], + "name": "Building Energy Management Open Source Software", + "organization": "CONTR", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/bemoss/BEMOSS3.5", + "status": "Production", + "tags": [ + "DOE CODE" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The software is an application for Oelta3D, QT and OpenSceneGraph, all of which are extemal open source software.", + "laborHours": 0, + "languages": [], + "name": "Open Facility Viewer", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/Open-Facility-Viewer", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "OpenEIS was created to provide standard methods for authoring, sharing, testing, using, and improving algorithms for operational building energy efficiency with building managers and building owners. OpenEIS is designed as a no-cost/low-cost solution that will propagate the fault detection and diagnostic (FDD) solutions into the marketplace by providing state- of- the-art analytical and diagnostic algorithms. As OpenEIS penetrates the market, demand by control system manufacturers and integrators serving small and medium commercial customers will help push these types of commercial software tool offerings into the broader marketplace.", + "laborHours": 0, + "languages": [], + "name": "Open Energy Information System version 2.0", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/VOLTTRON/openeis/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/VOLTTRON/openeis", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The paramutate software package Is a tool to calculate the genotyplc and phenotyplc propagation of a gene drive that can be silenced with a homologuus trans-Inactivating panmutatlon, ln dlptera or other species with a slmUar-acttng pl RNA system/Plwi pathway. Method of SolaUon: paramutate uses rults of Mendelian, gene drive (I.e.. stimulated conversion), and maternal Inheritance to compute the propaptlon of a notional gene drive construct and Its trans-lnactlvat1n1 paramutatlon, throu1b a panmlctlc, fixed-size population reproducing In synchronous generations.", + "laborHours": 0, + "languages": [], + "name": "Reversible Gene Drive Mechanism Utilizing Trana Inactivating Paramutatlons In Insects (paramutale 0.9)", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/RAJAPerf/blob/develop/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/RAJAPerf", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "The Hybrid Toolkit facilitates moving research algorithms into a production environment by creating useful abstractions that separate analytics developers from the intricacies of the production data formats, data flows, and result representations. The toolkit also assists developers with activities such as creating analysis feature vectors, converting between data structures, and creating data pipelines.", + "laborHours": 0, + "languages": [], + "name": "The Hybrid Toolkit", + "organization": "CONTR", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/sandialabs/The-Hybrid-Toolkit/tree/master/docs", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sandialabs/The-Hybrid-Toolkit", + "status": "Production", + "tags": [ + "DOE CODE" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Demeter-W, an open-access software written in Python, consists of extensible module packages. It is developed with statistical downscaling algorithms, to spatially and temporally downscale water demand data into finer scale. The spatial resolution will be downscaled from region/basin scale to grid (0.5 geographic degree) scale and the temporal resolution will be downscaled from year to month. For better understanding of the driving forces and patterns for global water withdrawal, the researchers is able to utilize Demeter-W to reconstruct the data sets to examine the issues related to water withdrawals at fine spatial and temporal scales.", + "laborHours": 0, + "languages": [], + "name": "Demeter-W", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/JGCRI/demeter-w", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "EnergyPlus(TM) is a whole building energy simulation program that engineers, architects, and researchers use to model both energy consumption - for heating, cooling, ventilation, lighting and plus and process loads - and water use in buildings.", + "laborHours": 0, + "languages": [], + "name": "EnergyPlus", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/NREL/EnergyPlus/blob/develop/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/EnergyPlus", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Existing development tools for early stage design and scoping of energy systems are often time consuming to use, proprietary, and do not contain the necessary function to model complete systems (i.e., controls, primary, and secondary systems) in a common platform. The Modelica programming language based TRANSFORM tool (1) provides a standardized, common simulation environment for early design of energy systems (i.e., power plants), (2) provides a library of baseline component modules to be assembled into full plant models using available geometry, design, and thermal-hydraulic data, (3) defines modeling conventions for interconnecting component models, and (4) establishes user interfaces and support tools to facilitate simulation development (i.e., configuration and parameterization), execution, and results display and capture.", + "laborHours": 0, + "languages": [], + "name": "TRANSFORM - TRANsient Simulation Framework of Reconfigurable Models", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ORNL-TRANSFORM/TRANSFORM-Library/blob/master/LICENSE.pdf", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL-TRANSFORM/TRANSFORM-Library", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The gr-uaslink software is an out of tree (OOT) module for GNU Radio. It provides a wrapper around pymavlink to allow MAVlink messages to be sent with GNU Radio.", + "laborHours": 0, + "languages": [], + "name": "gr-uaslink", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/deptofdefense/gr-uaslink", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "HELICS ls a new open-source, cyber-physlcal-energy co-simulation framework for electric power systems. HELICS Is designed to support very-large-scale (100,000+ federates) co­simulations with off-the-shelf power-system, communication, market, and end-use tools. Other key features Include cross platform operating system support, the integration of both eventdrlven (e.g., packetlzed communication) and time-series (e.g.,power flow) simulations, and the ability to co-Iterate among federates to ensure physical model convergence at each time step.", + "laborHours": 0, + "languages": [], + "name": "Hiearchical Engine for Large Scale Infrastructure Simulation", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/GMLC-TDC/HELICS-src/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/GMLC-Tdc/HELICS-src", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "VOLTTRON is an agent execution platform providing services to its agents that allow them to easily communicate with physical devices and other resources. VOLTTRON delivers an innovative distributed control and sensing software platform that supports modern control strategies, including agent-based and transaction-based controls. It enables mobile and stationary software agents to perform information gathering, processing, and control actions. VOLTTRON can independently manage a wide range of applications, such as HVAC systems, electric vehicles, distributed energy or entire building loads, leading to improved operational efficiency.", + "laborHours": 0, + "languages": [], + "name": "Volttron version 5.0", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/VOLTTRON/volttron/blob/master/TERMS.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/VOLTTRON/volttron", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Originally developed in 1999, an updated version 8.8.0 with bug fixes was released on September 30th, 2017. EnergyPlus™ is a whole building energy simulation program that engineers, architects, and researchers use to model both energy consumption—for heating, cooling, ventilation, lighting and plug and process loads—and water use in buildings. EnergyPlus is a console-based program that reads input and writes output to text files. It ships with a number of utilities including IDF-Editor for creating input files using a simple spreadsheet-like interface, EP-Launch for managing input and output files and performing batch simulations, and EP-Compare for graphically comparing the results of two or more simulations. Several comprehensive graphical interfaces for EnergyPlus are also available. DOE does most of its work with EnergyPlus using the OpenStudio® software development kit and suite of applications. DOE releases major updates to EnergyPlus twice annually.", + "laborHours": 0, + "languages": [], + "name": "EnergyPlus™", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/NREL/EnergyPlus/blob/develop/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/EnergyPlus", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "ExaMPM is a mini-application for the Material Point Method (MPM) for studying the application of MPM to future exascale computing systems. MPM is a general method for computational mechanics and fluids and is used in a wide variety of science and engineering disciplines to study problems with large deformations, phase change, fracture, and other phenomena. ExaMPM provides a reference implementation of MPM as described in the 1994 work of Sulsky et.al. (Sulsky, Deborah, Zhen Chen, and Howard L. Schreyer. \"A particle method for history-dependent materials.\" Computer methods in applied mechanics and engineering 118.1-2 (1994): 179-196.). The software can solve basic MPM problems in solid mechanics using the original algorithm of Sulsky with explicit time integration, basic geometries, and free-slip and no-slip boundary conditions as described in the reference. ExaMPM is intended to be used as a starting point to design new parallel algorithms for the next generation of DOE supercomputers.", + "laborHours": 0, + "languages": [], + "name": "ExaMPM", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ECP-copa/ExaMPM", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ECP-copa/ExaMPM", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ProRad is a computer program that is used to generate synthetic images of proton (or other charged particles) radiographs. The proton radiographs arc images that arc obtained by sending energetic protons (or electrons or positrons, for example) through 11 plasma where electric and/or magnetic fields alter the particles trajectory, Dnd the variations me imaged on RC film, image plate, or equivalent", + "laborHours": 0, + "languages": [], + "name": "Proton Radiography Imager:Generates Synthetic Proton Radiographs", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/prorad/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/prorad", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Sandia Engineering Analysis Code Access System (SEACAS) is a suite of preprocessing, post processing, translation, visualization, and utility applications supporting finite element analysis software using the Exodus database file format.", + "laborHours": 0, + "languages": [], + "name": "Sandia Engineering Analysis Code Access System v. 2.0.1", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/gsjaardema/seacas/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/gsjaardema/seacas", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Python script for querying a list of web sites and their details from Splunk and dynamically creating tests for monitoring uptime. The data generated from this script is then sent back to Splunk for creating reports and alerts.", + "laborHours": 0, + "languages": [], + "name": "Synthetic Transaction Test Generator for Websites", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/justinatpnnl/splunk_web_transactions_generator", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/justinatpnnl/splunk_web_transactions_generator", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Password management solutions exist, but few are designed for enterprise systems administrators sharing oncall rotations. Due to the Multi-Factor Level of Assurance 4 effort, DOE is now distributing PIV cards with cryptographically signed certificate and private key pairs to administrators and other security-significant users. We utilize this public key infrastructure (PKI) to encrypt passwords for other recipients in a secure way. This is cross platform (works on OSX and Linux systems), and has already been adopted internally by the NCCS systems administration staff to replace their old password book system.", + "laborHours": 0, + "languages": [], + "name": "PKPass", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/olcf/pkpass", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/olcf/pkpass", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A pipeline for scanning domains to measure things like speed, accessibility, and HTTPS.", + "laborHours": 0, + "languages": [], + "name": "domain-scan", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/18F/domain-scan/blob/master/LICENSE.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/18F/domain-scan", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kathleen_m@lanl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "libristra is a mathematical and computational utility and support library for codes. 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As such, it performs Monte Carlo integration of probability distributions and generates estimates of unknown quantities based on data and expert opinion if available. Its architecture makes it extensible enought to be helpful in the analysis of any statistical model, so it is particularly useful for statistic researchers. YADAS features a versatile scheme for defining models, and another versatile scheme for defining sampling algorithms that includes a default starting place for most analyses. Models are specified using bonds, which relate unknown parameters using a probability density function through functions that convert the parameters into arguments of the probability density. This structure appears to be versatile enough to be useful for virtually all statistical models. The updating algorighms emphasize componentwise random walk Metropolis algorighm updates, but YADAS also contains a framework for updating correlated parameters together. Reversible jump updates are also supported.", + "homepageURL": "http://yadas.lanl.gov/index.html", + "laborHours": 0, + "languages": [], + "name": "YADAS", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://yadas.lanl.gov/node34.html", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://yadas.lanl.gov/index.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This software, a library, contains FORTRAN77 subroutines to calculate first and second derivatives up to 8th order, interpolations (1D and 2D) up to 10th order and filters up to 14th order. Only even orders are addressed and finite-difference stencils are implemented on a vertex-centered mesh. 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The software comes with a User's Guide and examples how to use it.", + "homepageURL": "http://www.sandia.gov/~jairay/HighOrder/SISC06.html", + "laborHours": 0, + "languages": [], + "name": "HODIF:High-Order Discretizations, Interpolations and", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.sandia.gov/~jairay/HighOrder/SISC06.html", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/~jairay/HighOrder/SISC06.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Our work is aimed at providing a data store for system-level events and presenting a flexible query interface to those events. 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By collecting all of the data into a single database, we are able to leverage the Query Builder interface supplied by RT to create, save, and restore almost any kind of query imaginable.", + "homepageURL": "https://sourceforge.net/projects/rasilience/", + "laborHours": 0, + "languages": [], + "name": "Reliability Availability Serviceability", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://sourceforge.net/projects/rasilience/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "P-STET assists in the security technology decision making process from a costlbeneflt perspective. It aids in addressing such questions as whether to acquire and deploy new security technology, to re-configure an existing product or system, or to maintain status quo. P-STET offers both a qualitative and quantitative option. P-STET is most efficient when tailored to an organization's security cost/benefit environment. It then serves as both a guide to show what types of security questions should be addressed and as a means to analyze the data gathered from the questions to make an informed decision. The quantitative option provides a straightforward way to express costs/benefits in terms of dollars. It relies on the organization to quantify benefits or cost avoidances, and, therefore, best serves as a guide to ensure various cost and benefit angles are evaluated. The qualitative option allows the organization to assess costs by levels with respect to security and PCS budgets, operational impacts, and opportunity costs. Benefits are represented in terms of improvements to the organization's operations and are also assessed by levels with respect to some benchmark such as compliance with best practices. Results are displayed graphically using radar charts, allowing the user to make a more intuitive decision. The shaded area of each chart represents the overall cost and benefit of the security investment. A good investment is denoted when the ratio of benefit shaded area to cost shaded area is large.", + "homepageURL": "https://sourceforge.net/projects/i3p-pstet/", + "laborHours": 0, + "languages": [], + "name": "PCS Security Technology Evaluation Tool", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://sourceforge.net/projects/i3p-pstet/files/i3p-pstet/1.0/pstet_license.txt/download", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://sourceforge.net/projects/i3p-pstet/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "IBSimu(Ion Beam Simulator) is a computer program for making two and three dimensional ion optical simulations. The program can solve electrostatic field in a rectangular mesh using Poisson equation using Finite Difference method (FDM). The mesh can consist of a coarse and a fine part so that the calculation accuracy can be increased in critical areas of the geometry, while most of the calculation is done quickly using the coarse mesh. IBSimu can launch ion beam trajectories into the simulation from an injection surface or fomo plasma. Ion beam space charge of time independent simulations can be taken in account using Viasov iteration. Plasma is calculated by compensating space charge with electrons having Boltzmann energy distribution. The simulation software can also be used to calculate time dependent cases if the space charge is not calculated. Software includes diagnostic tools for plotting the geometry, electric field, space charge map, ion beam trajectories, emittance data and beam profiles.", + "homepageURL": "https://sourceforge.net/projects/ibsimu/", + "laborHours": 0, + "languages": [], + "name": "Ion Beam Simulator", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://sourceforge.net/projects/ibsimu/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MpiGraph consists of an MPI application called mpiGraph written in C to measure message bandwidth and an associated crunch_mpiGraph script written in Perl to process the application output into an HTMO report. The mpiGraph application is designed to inspect the health and scalability of a high-performance interconnect while under heavy load. This is useful to detect hardware and software problems in a system, such as slow nodes, links, switches, or contention in switch routing. It is also useful to characterize how interconnect performance changes with different settings or how one interconnect type compares to another.", + "homepageURL": "https://sourceforge.net/projects/mpigraph/", + "laborHours": 0, + "languages": [], + "name": "mpiGraph", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://sourceforge.net/projects/mpigraph/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "EPANET-BAM 1.0 is an augmented version of EPANET 2.00.10, open-source software distributed by the US Environmental Protection Agency that models flow and contaminant transport through water distribution pipe networks. EPANET-BAM uses a new Bulk advective Mixing (BAM) model to predict concentrations of an aqueous solute at the outlets of cross junctions in a water quality simulation.", + "homepageURL": "http://www.sandia.gov/epanet-bam/", + "laborHours": 0, + "languages": [], + "name": "EPANET-BAM", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/epanet-bam/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Provides the shell of a plugin based application environment that builds on MVC Framework to allow one to rapidly construct an application by using a collection of plugins. The MVC Shell is implemented in C# as a .NET 2.0 application that can then be used as a shell for building a plugin based application. The infrastructure allows for dynamically processing a specified collection of plugins in order to determine the functionality of the application, where all plugins operate within the context of the underlying MVC Framework environment.", + "homepageURL": "http://www.codeplex.com/mvcshell", + "laborHours": 0, + "languages": [], + "name": "MVC Shell", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.codeplex.com/mvcshell", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The TEVA-SPOT Toolkit (SPOT) supports the design of contaminant warning systems (CWSs) that use real-time sensors to detect contaminants in municipal water distribution networks. Specifically, SPOT provides the capability to select the locations for installing sensors in order to maximize the utility and effectiveness of the CWS. SPOT models the sensor placement process as an optimization problem, and the user can specify a wide range of performance objectives for contaminant warning system design, including population health effects, time to detection, extent of contamination, volume consumed and number of failed detections. For example, a SPOT user can integrate expert knowledge during the design process by specigying required sensor placements or designating network locations as forbidden. Further, cost considerations can be integrated by limiting the design with user-specified installation costs at each location.", + "homepageURL": "https://software.sandia.gov/trac/spot/downloader", + "laborHours": 0, + "languages": [], + "name": "TEVA-SPOT Toolkit 1.2", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://software.sandia.gov/trac/spot/downloader", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PSUADE is an software system that is used to study the relationships between the inputs and outputs of general simulation models for the purpose of performing uncertainty and sensitivity analyses on simulation models.", + "homepageURL": "https://computation.llnl.gov/projects/psuade-uncertainty-quantification", + "laborHours": 0, + "languages": [], + "name": "Problem Solving Environment for Uncertainty Analysis and Design Exploration", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://computation.llnl.gov/projects/psuade-uncertainty-quantification", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "TaqSim simulates various types of PRC reactions, including multiplex reactions. Given a set of primers and dearch databases, TaqSim identifies amplicons that match user defined criteria and can generate output files in a number of formats allowing it to serve as a front-end or back-end for other software.", + "homepageURL": "http://staff.vbi.vt.edu/dyermd/publications/taqsim.html", + "laborHours": 0, + "languages": [], + "name": "TaqMan PCR Simulator", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://staff.vbi.vt.edu/dyermd/publications/taqsim.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "STRIDE is a suite of benchmarks, 8 in total, which access a computers low level caches and memory in a variety of patterns. The resulting performance of the kernels provides significant insight into the performance that a real application may incur and dictate how certain algorithmic choices should be made.", + "homepageURL": "https://asc.llnl.gov/sequoia/benchmarks/", + "laborHours": 0, + "languages": [], + "name": "Stride Version 1.0", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://asc.llnl.gov/sequoia/benchmarks/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "iScore measures the interestingness of news article in a limited user environment. it is an online learning algorithm that combines a large set of disparate features to classify documents.", + "homepageURL": "https://sourceforge.net/projects/iscore/", + "laborHours": 0, + "languages": [], + "name": "iScore: news filtering software", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://sourceforge.net/projects/iscore/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "VisIt is an interactive parallel visualization and graphical analysis tool for viewing scientific date on UNIX and PC platforms. 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VisIt was designed to handle very large data set sizes in the terascale range and yet can also handle small data sets in the kilobyte range.", + "homepageURL": "https://visit.llnl.gov", + "laborHours": 0, + "languages": [], + "name": "A Distributed, Parallel Visualization and Analysis Tool", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://wci.llnl.gov/simulation/computer-codes/visit/license", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://visit.llnl.gov", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Pianola is a software benchmark for measuring the performance of input/output (I/O) hardware and software. It works by monitoring the I/O activity of an existing application and storing the sequence of events, along with their timing, in a script. After some additional processing, a separate piece of software in this package can replay these I/) events and replicate their timing without reference to the original application. Therefore, Pianola allows users to create standalone I/O benchmarks that mimic the behavior of applications that either cannot be released or that are difficult for nonspecialists to configure, build or run.", + "homepageURL": "https://computation.llnl.gov/software-catalog", + "laborHours": 0, + "languages": [], + "name": "Pianola Version 1.0", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://computation.llnl.gov/software-catalog", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The MDEF package contains capabilities ofr modeling the deformation of materials at the crystal scale. Primary code capabilities are: xoth \"strength\" and \"equation of state\" aspects of material response, post-processing utilities, utilities for comparing results with data from diffraction experiments.", + "homepageURL": "https://anisotropy.mae.cornell.edu/dplab/mdef", + "laborHours": 0, + "languages": [], + "name": "Multi-scale and Multi-phase deformation of crystalline materials", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://anisotropy.mae.cornell.edu/dplab/mdef", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "dkrakowski@anl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Embody (Environment Modules Build) is a software build tool with integrated support for the environment-modules package. The tool eases and automates the task of building and installing software packages from source or binary distributions, as well as the management of associated modulefiles. An administrator or software pool maintainer has to write a brief script for the installation process. These steps are usually described for manual execution, in a package's README or INSTALL file. It would be up to the site administrator to work out a procedure to capture the steps taken. This tool: streamlines and codifies the installation tasks in a common framework; it provides a self-documenting and unified way for maintaining package installations; uses bash shell variables and functions for portability; keeps log files of the proceedings. It is similar in intent and function to other existing tools, such as RPM, but has several novel features tailored for High Performance Computing (HPC) software deployments. The design goal is simplicity and decoupling from RPM's dependencies and its database, which enables coexistence of several builds. Useful on HPC systems, new builds can be deployed centrally to shared file systems and without affecting running jobs.", + "homepageURL": "https://trac.anl.gov/embody/", + "laborHours": 0, + "languages": [], + "name": "EMBODY(Environmental Modules Build System Software)", + "organization": "Argonne National Laboratory (ANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://trac.anl.gov/embody/browser/trunk/COPYRIGHT", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://trac.anl.gov/embody/", + "status": "Production", + "tags": [ + "DOE CODE", + "Argonne National Laboratory (ANL)" + ] + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MeDICi is an evolving middleware platform for building complex, high performance analytical applications. These applications typically comprise a pipeline of software components, each of which performs some analysis on incoming data and passes on its results to the next step in the pipeline.", + "homepageURL": "http://medici.pnl.gov/download_mif", + "laborHours": 0, + "languages": [], + "name": "Middleware for Data Intensive Computing", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://medici.pnl.gov/standard_pnnl_oss_liscense", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://medici.pnl.gov/download_mif", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The MapReduce MPI library is a software tool for performing MapReduce operations on a distributed memory parallel computer via message passing (MPI). 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The library assigns independent tasks to processors and performs the parallel data movement and transformations behind the scenes.", + "homepageURL": "http://mapreduce.sandia.gov/", + "laborHours": 0, + "languages": [], + "name": "MapReduce MPI library (MR-MPI) v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://mapreduce.sandia.gov/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The FAST software package contains a variety of Python packages for applying and managing software tests. In version 2.0, FAST includes (1) the EXACT package, which supports the definition and execution of computational experiments, (2) the FAST package, which manages the distributed execution of software builds, and (3) general tools related to the PyUnit testing framework.", + "homepageURL": "https://software.sandia.gov/trac/fast", + "laborHours": 0, + "languages": [], + "name": "FAST - A Framework for Agile Software Testing v. 2.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.sandia.gov/trac/fast/wiki/Licensing", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://software.sandia.gov/trac/fast", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "SOLERGY simulates the operation and power output of a user-defined solar central receiver power plant for a time period of up to one year. SOLERGY utilizes recorded or simulated weather data and plant component performance models to calculate the power flowing through each part of the solar plant. A plant control subroutine monitors these powers and determines when to operate the various plant subsystems. The original version of the code was released in May 1987, within SAND86-8060 and was widely distributed. The Beta Version 1 to be released in 2009, includes some relatively small modifications to the original code.", + "homepageURL": "http://energy.sandia.gov/energy/renewable-energy/solar-energy/csp-2/csp-codes-and-tools/", + "laborHours": 0, + "languages": [], + "name": "Solergy (Beta Version 1)", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://energy.sandia.gov/energy/renewable-energy/solar-energy/csp-2/csp-codes-and-tools/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://energy.sandia.gov/energy/renewable-energy/solar-energy/csp-2/csp-codes-and-tools/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Dimensionality Reduction Library is a C++ library for dimensionality reduction. In the context of this library, dimensionality reduction is considered to consist of 1)estimation of the intrinsic dimensionality using sampled data, 2) Finding maps that reduce the diemsionality of data (forward map) or increase the dimensionality of data (reverse map) and 3) mapping arbitray coordiantes to high and low dimensionalities. The library is intended toprovide a consistent interface to multiple dimensionality reduction algorithms with an efficient C++ interface that runs efficiently on multicore architectures. A few routines have been optimized with an option for GPU acceleration or distributed computation. Currently the library offers intrinsic dimensionality estimation using point-PCA reconstruction error and/ residual variance. The following dimensionality reduction methods have been implemented: Principal Component Analysis Multidimensional Scaling Locally Linear Embedding IsoMap Autoencoder Neutral Networks An executable is also supplied that can be built to allow for command-line access to the library routines. A description for an applciation of the library for molecular structure analysis has been published.", + "homepageURL": "http://www.sandia.gov/~smartin/software.html", + "laborHours": 0, + "languages": [], + "name": "Dimensionality Reduction Library v 0.2", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/~smartin/software.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "DELSOL calculates collector field performance and layout and optimal system design for solar thermal central receiver plants. The code consists of a detailed model of the optical performance, a simpler model of the non-optical performance, an algorithm for field layout, and a searching algorithm to find the best system design based on energy cost. The latter two features are coupled to a cost model of central receiver components and an economic model for calculating energy costs. The program optimizes the tower height, receiver size, field layout, heliostat spacings, and tower position at user specified power levels.", + "homepageURL": "http://energy.sandia.gov/energy/renewable-energy/solar-energy/csp-2/csp-codes-and-tools/", + "laborHours": 0, + "languages": [], + "name": "DELSOL v. 3", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://energy.sandia.gov/energy/renewable-energy/solar-energy/csp-2/csp-codes-and-tools/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://energy.sandia.gov/energy/renewable-energy/solar-energy/csp-2/csp-codes-and-tools/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The RSTT software computes predictions of the travel time of seismic energy traveling from a source to a receiver through 2.5D models of the seismic velocity distribution within the Earth. The two primary applications for the RSTT library are tomographic inversion studies and seismic event location calculations. In tomographic inversions studies, a seismologist begins with number of source-receiver travel time observations and an initial starting model of the velocity distribution within the Earth. A forward travel time calculator, such as the RSTT library, is used to compute predictions of each observed travel time and all of the residuals (observed minus predicted travel time) are calculated. The Earth model is then modified in some systematic way with the goal of minimizing the residuals. The Earth model obtained in this way is assumed to be a better model than the starting model if it has lower residuals. The other major application for the RSTT library is seismic event location. Given an Earth model, an initial estimate of the location of a seismic event, and some number of observations of seismic travel time thought to have originated from that event, location codes systematically modify the estimate of the location of the event with the goal of minimizing the difference between the observed and predicted travel times. The second application, seismic event location, is routinely implemented by the military as part of its effort to monitor the Earth for nuclear tests conducted by foreign countries.", + "homepageURL": "http://www.sandia.gov/rstt/RSTT%20Download.html", + "laborHours": 0, + "languages": [], + "name": "Code for Calculating Regional Seismic Travel Time", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/rstt/RSTT%20Download.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A library of utility classes for computer vision. Contains implementations of various well-known image processing techniques, such as interest point operators and region descriptors. Includes interfaces to various libraries for image and video I/O, as well as an interface to LAPACK/BLAS. FL was developed at the University of Illinois, Urbana-Champaign (UIUC) and released under an open source license. Version 1.2 was a maintenance release provided by SNL under the LGPL license. Version 1.3 is a maintenance release, containing the following changes: - Improved image format handling. Now handles strided and planar memory layouts and a wider range of pixel formats. - Improved image file I/O, including better support for metadata, a wider range of stored pixel types, and a couple of new file formats. - Improvements to DOG and SIFT, and efficiency improvements in low-level convolution. - Improvements to networking, including a generic TCP listener. - Various improvements to numerical processing. The HISTORY file included in the distribution contains a more detailed description of the changes.", + "homepageURL": "http://www-cvr.ai.uiuc.edu/ponce_grp/software/", + "laborHours": 0, + "languages": [], + "name": "FL V1.3", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www-cvr.ai.uiuc.edu/ponce_grp/software/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www-cvr.ai.uiuc.edu/ponce_grp/software/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PSUDE is an software system that is used to study the relationships between the inputs and outputs of general simulation models for the purpose of performaing uncertainty and sensitivity analyses on simulation models.", + "homepageURL": "https://computation.llnl.gov/projects/psuade-uncertainty-quantification", + "laborHours": 0, + "languages": [], + "name": "Problem Solving Environment for Uncertainty Analysis and Design Exploration", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://computation.llnl.gov/projects/psuade-uncertainty-quantification", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "HOPSPACK is open source software for solving optimization problems without derivatives. Application problems may have a fully nonlinear objective function, bound constraints, and linear and nonlinear constraints. Problem variables may be continuous, integer-valued, or a mixture of both. The software provides a framework that supports any derivative-free type of solver algorithm. Through the framework, solvers request parallel function evaluation, which may use MPI (multiple machines) or multithreading (multiple processors/cores on one machine). The framework provides a Cache and Pending Cache of saved evaluations that reduces execution time and facilitates restarts. Solvers can dynamically create other algorithms to solve subproblems, a useful technique for handling multiple start points and integer-valued variables. HOPSPACK ships with the Generating Set Search (GSS) algorithm, developed at Sandia as part of the APPSPACK open source software project.", + "homepageURL": "http://www.sandia.gov/hopspack/index.shtml", + "laborHours": 0, + "languages": [], + "name": "Hybrid Optimization Parallel Search PACKage", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/hopspack/index.shtml", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "This OpenFabrics Alliance (OFA) OpenSM routing engine module provides credit-loop-free routing while supporting two quality of service (QoS) levels for an InfiniBand fabric with a 3D torus topology. In addition it is able to route around multiple failed fabric links or a single failed fabric switch without introducing credit loops, and without changing path Service Level (SL) values granted before the failure.This OFA OpenSM routing engine module improves the operational characteristics of a parallel computer built using an InfiniBand fabric with a 3D torus topology. By providing two QoS levels, it allows system administrators to prevent application interprocess communication and file system communication from impacting each other. By providing the capability to route traffic around failed fabric components, it enables repair of failed components without impacting jobs running on the computer system.", + "homepageURL": "http://downloads.openfabrics.org/OFED/", + "laborHours": 0, + "languages": [], + "name": "3D Torus Routing Engine Module for OFA OpenSM v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://downloads.openfabrics.org/OFED/README.html", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://downloads.openfabrics.org/OFED/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The MEGRAPHS software package provides a front-end to graphs and vectors residing on special-purpose computing resources. It allows these data objects to be instantiated, destroyed, and manipulated. A variety of primitives needed for typical graph analyses are provided. An example program illustrating how MEGRAPHS can be used to implement a PageRank computation is included in the distribution.The MEGRAPHS software package is targeted towards developers of graph algorithms. Programmers using MEGRAPHS would write graph analysis programs in terms of high-level graph and vector operations. These computations are transparently executed on the Cray XMT compute nodes.", + "homepageURL": "https://software.sandia.gov/trac/MEGRAPHS/browser", + "laborHours": 0, + "languages": [], + "name": "Modular Environment for Graph Research and Analysis with a Persistent", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://software.sandia.gov/trac/MEGRAPHS/browser", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The MultiThreaded Graph Library (MTGL) is a set of header files that implement graph algorithm in such a way that they can run on massively multithreaded architectures. 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The MapReduceXMT implements the key aspects of MapReduce for the Cray XMT, a massively threaded system that is inherently difficult to program. MapReduceXMT allows users to utilize the machine effectively and efficiently without extensive training in multi-threaded programming.", + "homepageURL": "https://software.sandia.gov/trac/MapReduceXMT/browser/tags/SNAP_SHOT_2012_02_21#MapReduceXMT", + "laborHours": 0, + "languages": [], + "name": "MapReduceXMT v. 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It also includes an interface to a parallel Mersenne Twister, so that if users install the Mersenne Twister, then they can test this generator with the SPRNG test suite and also use some SPRNG features with that generator.", + "homepageURL": "http://www.sprng.org/", + "laborHours": 0, + "languages": [], + "name": "SPRNG Scalable Parallel Random Number Generator LIbrary", + "organization": "Office of Scientific and Technical Information (OSTI)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://creativecommons.org/licenses/by-nc-sa/4.0/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sprng.org/", + "status": "Production", + "tags": [ + "DOE CODE", + "Office of Scientific and Technical Information (OSTI)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Extensions to the AMPL/solver interface library (http://netlib.sandia.gov/ampl/solvers) to compute bounds on algebraic expressions, plus a test program. use in uncertainty quantification and global optimization algorithms. This software is not primarily for military applications.", + "homepageURL": "http://netlib.sandia.gov/ampl/solvers", + "laborHours": 0, + "languages": [], + "name": "Slope Extensions to ASL Library", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://netlib.sandia.gov/ampl/solvers/README", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://netlib.sandia.gov/ampl/solvers", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "partially completed extensions for stochastic programming to the AMPL/solver interface library (ASL).modeling and experimenting with stochastic recourse problems. This software is not primarily for military applications", + "homepageURL": "http://www.netlib.org/ampl/solvers", + "laborHours": 0, + "languages": [], + "name": "Partial ASL extensions for stochastic programming.", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.netlib.org/ampl/solvers/README", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.netlib.org/ampl/solvers", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Foobug is an application to assist a group of developers in keeping track of issues relevant to their shared interests. These are sometimes called \"bug-tracking\" or \"ticket-tracking\" systems.", + "homepageURL": "http://sourceforge.net/projects/foobug/", + "laborHours": 0, + "languages": [], + "name": "Foobug", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://sourceforge.net/projects/foobug/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Inline_System replaces a small subset of file query and manipulation commands, on computing platforms that do not offer a complete standard POSIX environment.", + "homepageURL": "https://sourceforge.net/projects/inlinesystem/", + "laborHours": 0, + "languages": [], + "name": "Inline_System", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://sourceforge.net/projects/inlinesystem/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "A C++ utility library that provides abstractions for common data types with debugging features, support for I/O redirection and support for portability.", + "homepageURL": "http://software.sandia.gov/trac/utilib", + "laborHours": 0, + "languages": [], + "name": "C++ Utility Library V4.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://software.sandia.gov/trac/utilib", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Acro provides a software infrastructure that integrates a variety of optimization software libraries, as well as general-purpose libraries like UTILIB that support the development of parallel optimizers.", + "homepageURL": "https://software.sandia.gov/trac/acro", + "laborHours": 0, + "languages": [], + "name": "Acro (A Common Repository for Optimizers) v. 2.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://software.sandia.gov/trac/acro", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Cognitive Foundry is a unified collection of tools designed for research and applications that use cognitive modeling, machine learning, or pattern recognition. The software library contains design patterns, interface definitions, and default implementations of reusable software components and algorithms designed to support a wide variety of research and development needs. The library contains three main software packages: the Common package that contains basic utilities and linear algebraic methods, the Cognitive Framework package that contains tools to assist in implementing and analyzing theories of cognition, and the Machine Learning package that provides general algorithms and methods for populating Cognitive Framework components from domain-relevant data.", + "homepageURL": "http://foundry.sandia.gov", + "laborHours": 0, + "languages": [], + "name": "Cognitive Foundry v. 3.0 (OSS)", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://foundry.sandia.gov", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PSUADE is an software system that is used to study the relationships between the inputs and outputs of general simulation models for the purpose of performing uncertainty and sensitivity analyses on simulation models.", + "homepageURL": "https://computation.llnl.gov/projects/psuade-uncertainty-quantification", + "laborHours": 0, + "languages": [], + "name": "Problem Solving Environment for Uncertainty Analysis and Design Exploration", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://computation.llnl.gov/projects/psuade-uncertainty-quantification", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "This code consists of Matlab routines which enable the user to perform non-manifold surface reconstruction via triangulation from high dimensional point cloud data. 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Futures applications are envisioned for peptides and proteins.", + "homepageURL": "http://www.sandia.gov/~smartin/software.html", + "laborHours": 0, + "languages": [], + "name": "NMTRI v 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.sandia.gov/~smartin/software.html", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/~smartin/software.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "BUHFS is a fuse-based POSIX compliant filesystem interface for HPSS. 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SWQM consists of a set of Matlab scripts that model the statistical variation that is expected in a water treatment facility's water, such as pH and chlorine levels.", + "homepageURL": "https://software.sandia.gov/trac/canary/downloader/download/category/10", + "laborHours": 0, + "languages": [], + "name": "SWQM: Source Water Quality Modeling Software", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.sandia.gov/trac/canary/downloader/download/category/10", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://software.sandia.gov/trac/canary/downloader/download/category/10", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "G4beamline is a single-particle-tracking simulation code based on the Geant4 toolkit. 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This software is designed as a module to be used with existing open source simulators for discrete event systems in general and communication systems in particular. THYME consists of a typical model for simulating electro-mechanical transients (e.g., as are used in dynamic stability studies), data handling objects to work with CDF and PTI formatted power flow data, and sample models of discrete sensors and controllers.", + "homepageURL": "http://www.ornl.gov/~1qn/thyme/docs/", + "laborHours": 0, + "languages": [], + "name": "THYME: Toolkit for Hybrid Modeling of Electric Power Systems", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://web.ornl.gov/~nutarojj/thyme/docs/license.html", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.ornl.gov/~1qn/thyme/docs/", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Bayesloc is a statistical model of the multiple seismic location system, including event hypocenters, corrections to model-based travel time predictions, assessments precision for measurement phase arrival times, and phase lavels which indicate phase ray path.", + "homepageURL": "https://www-gs.llnl.gov/nuclear-threat-reduction/nuclear-explosion-monitoring/bayesloc", + "laborHours": 0, + "languages": [], + "name": "Bayesian Mulitple-Event Location", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://www-gs.llnl.gov/nuclear-threat-reduction/nuclear-explosion-monitoring/bayesloc", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "CANARY -EDS provides probabilistic event detection based on analysis of time-series data from water quality or other sensors. CANARY also can compare patterns against a library of previously seen data to indicate that a certain pattern has reoccurred, suppressing what would otherwise be considered an event. CANARY can be configured to analyze previously recorded data from files or databases, or it can be configured to run in real-time mode directory from a database, or through the US EPA EDDIES software.", + "homepageURL": "https://software.sandia.gov/trac/canary/", + "laborHours": 0, + "languages": [], + "name": "Characterization and Analysis of Networked Array of Sensors for Event Detection (CANARY-EDS)", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://software.sandia.gov/trac/canary/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The TChem toolkit is a software library that enables numerical simulations using complex chemistry and facilitates the analysis of detailed kinetic models. The toolkit provide capabilities for thermodynamic properties based on NASA polynomials and species production and consumption rates. It incorporates methods that can selectively modify reaction parameters for sensitivity analysis and uncertainty quantification. The library also contains several functions that provide analytically computed Jacobian matrices necessary for the efficient time advancement and analysis of detailed kinetic models.", + "homepageURL": "http://www.sandia.gov/tchem/", + "laborHours": 0, + "languages": [], + "name": "TChem", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/tchem/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "LIME 0.5 is an initial version of a Lightweight Integrating Multi-physics Environment for coupling codes. 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Of note is that components/physics codes that can be coupled within LIME are NOT limited to: components written in one particular language; a particular numerical discretization approach ( e.g. Finite Element); or physical models expressed as PDE's.", + "homepageURL": "https://sourceforge.net/projects/lime1/", + "laborHours": 0, + "languages": [], + "name": "LIME 0.5", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://sourceforge.net/projects/lime1/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PSUADE is an software system that is used to study the releationships between the inputs and outputs of gerneral simulation models for the purpose of performing uncertainty and sensitivity analyses on simulation models.", + "homepageURL": "https://computation.llnl.gov/projects/psuade-uncertainty-quantification", + "laborHours": 0, + "languages": [], + "name": "Problem Solving Environment for Uncertainty Analysis and Design Exploration", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://computation.llnl.gov/projects/psuade-uncertainty-quantification", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The All People's Simulator is a software package which can simulate a large number of people wandering randomly through a real city. It utilizes freely-available map data from the OpenStreetMaps project to create a map of city streets, then simulates people wandering through those streets. APS was designed to integrate with other work being done in the \"Megadroid\" LDRD, but is capable of functioning and providing value completely on its own.", + "homepageURL": "https://bitbucket.org/floren/gosim/", + "laborHours": 0, + "languages": [], + "name": "All People's Simulator", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://bitbucket.org/floren/gosim/src/9355d3bf524dbebc5bb084179a3d78476ebee8d3/LICENSE?at=default&fileviewer=file-view-default", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://bitbucket.org/floren/gosim/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Interatomic force and energy calculation subroutine tobe used with the molecular dynamics simulation code LAMMPS (Ref a.). The code evaluates the total energy and atomic forces (energy gradient) according to cubic spine-based variant (Ref b.) of the Modified Embedded Atom Method (MEAM).", + "homepageURL": "http://lammps.sandia.gov/download.html", + "laborHours": 0, + "languages": [], + "name": "MEAM interatomic force calculation subroutine for LAMMPS", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://lammps.sandia.gov/download.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Water Security Toolkit (WST) provides software for modeling and analyzing water distribution systems to minimize the potential impact of contamination incidents. WST wraps capabilities for contaminant transport, impact assessment, and sensor network design with response action plans, including source identification, rerouting, and decontamination, to provide a range of water security planning and real-time applications.", + "homepageURL": "https://software.sandia.gov/trac/wst/wiki", + "laborHours": 0, + "languages": [], + "name": "Water Security Toolkit", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.sandia.gov/trac/wst/wiki/Licensing", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://software.sandia.gov/trac/wst/wiki", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PHISH is a lightweight framework which a set of independent processes can use to exchange data as they run on the same desktop machine, on processors of a parallel machine, or on different machines across a network. This enables them to work in a coordinated parallel fashion to perform computations on either streaming, archived, or self-generated data. The PHISH distribution includes a simple, portable library for performing data exchanges in useful patterns either via MPI message-passing or ZMQ sockets. PHISH input scripts are used to describe a data-processing algorithm, and additional tools provided in the PHISH distribution convert the script into a form that can be launched as a parallel job.", + "homepageURL": "http://www.sandia.gov/~sjplimp/download.html", + "laborHours": 0, + "languages": [], + "name": "Parallel Harness for Informatic Stream Hashing", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/~sjplimp/download.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This application simulates microstructural and compositional evolution in two-phase, two-component systems. It is designed to run within the SPPARKS solver and combines the kMC with solution to the Cahn-Hilliard Eq. for phase field.", + "homepageURL": "http://spparks.sandia.gov/", + "laborHours": 0, + "languages": [], + "name": "app_hybridPotts-phasefield.cpp", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://spparks.sandia.gov/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This application simulates simple solid state sintering by incorporating all the active mechanisms, namely, curvature-driven gain growth, pore shaping and migration by surface diffusion, and creation, diffusion and annihilation of vacancies. It is an application developed for SPPARKS and has to be run within this framework.", + "homepageURL": "http://spparks.sandia.gov/", + "laborHours": 0, + "languages": [], + "name": "app_sintering.cpp", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://spparks.sandia.gov/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The plpdfa software is a product of an LDRD project at LLNL entitked \"Adaptive Sampling for Very High Throughput Data Streams\" (tracking number 11-ERD-035). This software was developed by a graduate student summer intern, Chris Challis, who worked under project PI Dan Merl furing the summer of 2011. The software the source code is implementing is a statistical analysis technique for clustering and classification of text-valued data. The method had been previously published by the PI in the open literature.", + "homepageURL": "http://cran.r-project.org", + "laborHours": 0, + "languages": [], + "name": "Particle learning for probabilistic deterministic finite automata", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://cran.r-project.org", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "pgarvey@bnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "DAQMAN is a flexible configurable interface that allows the user to build and operate a VME-based data acquisition system on a Linux workstation. It consists of two parts: a Java-based Graphical User Interface to configure the system, and a C-based utility that reads out the data and creates the output ASCII data file, with two levels of diagnostic tools. The data acquisition system requires a CAEN CONET-VME Bridge to communicate between the hardware in the VME crate and the Linux workstation. Data acquisition modules, such as ADCs, TDC, Scalers, can be loaded into the system, or removed easily. The GUI allows users to activate modules, and channels within modules by clicking on icons. Running configurations are stored; data are collected and can be viewed either as raw numbers, or by charts and histograms that update as the data are accumulated. Data files are written to disk in ASCII format, with a date and time stamp.", + "homepageURL": "https://www.bnl.gov/nsrl/userguide/data-aquisition.php", + "laborHours": 0, + "languages": [], + "name": "DAQMAN - A flexible configurable data acquisition system", + "organization": "Brookhaven National Laboratory (BNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://www.bnl.gov/nsrl/userguide/data-aquisition.php", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://www.bnl.gov/nsrl/userguide/data-aquisition.php", + "status": "Production", + "tags": [ + "DOE CODE", + "Brookhaven National Laboratory (BNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "HFBRHO is a physics computer code that is used to model the structure of the nucleus. It is an implementation of the nuclear energy Density Functional Theory (DFT), where the energy of the nucleus is obtained by integration over space of some phenomenological energy density, which is itself a functional of the neutron and proton densities. In HFBTHO, the energy density derives from the Skyrme effective two-body interaction between nucleons, nuclear superfluidity is treated at the Hartree-Fock-Bogoliubov (HFB) approximation, and axial-symmetry of the nuclear shape is assumed This version is the 2nd release of the program; the previous version has been published in Computer Physics Communications (1). It is the first version that has been partly developed at Lawrence Livermore National Laboratory.", + "homepageURL": "http://cpc.cs.qub.ac.uk/summaries/ADUI_v2_0.html", + "laborHours": 0, + "languages": [], + "name": "HFBTHO", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://cpc.cs.qub.ac.uk/summaries/ADUI_v2_0.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "LMAT is designed to take as input a collection of raw metagenomic sequencer reads, and search each read against a reference genome database and assign a taxonomic label and confidence value to each read and report a summary of the predicted taxonomic contents of the metagenomic sample.", + "homepageURL": "https://sourceforge.net/projects/lmat/", + "laborHours": 0, + "languages": [], + "name": "Livermore Metagenomics Analysis Toolkit", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://sourceforge.net/projects/lmat/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "PERM is a C library for persistent heap management and is intended for use with a dynamic-memory allocator (e.g. malloc, free). The PERM memory allocator replaces the standard C dynamic memory allocation functions with compatible versions that provide persistent memory to application programs. Memory allocated with the PERM allocatory will persist between program invocations after a call to a checkpoint function. This function essentially saves the state of the heap and registered global variables to a file which may reside in flash memory or other node local storage. A few other functions are also provided by the library to manage checkpoint files. Global variables in an application can be marked persistent and be included in a checkpoint by using a compiler attribute defined as PERM. The PERM checkpoint methof is not dependent on the programming model ans works with distributed memory or shared memory programs.", + "homepageURL": "https://computation.llnl.gov/projects/memory-centric-architectures/download/perm-je-0.9.7.tgz", + "laborHours": 0, + "languages": [], + "name": "Persistent heap Management library", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://computation.llnl.gov/projects/memory-centric-architectures/download/perm-je-0.9.7.tgz", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MMA is a stand-alone memory management system for MPI clusters. It implements a shared Partitioned Global Address Space, where multiple MPI processes request objects from the allocator and the latter provides them with system-wide unique memory addresses for each object. It provides applications with an intuitive way of managing the memory system in a unified way, thus enabling easier writing of irregular application code.", + "homepageURL": "http://myrmics.com/download.php", + "laborHours": 0, + "languages": [], + "name": "Myrmics Memory Allocator", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://myrmics.com/downloads/mma_license.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://myrmics.com/download.php", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "GeoTess facilitates access to a multi-level triangular tessellation of a unit sphere, including find the index of the triangle in which an arbitrary position on the sphere resides and computing the interpolation coefficients that should be applied to data stored on the nodes of the tessellation that defines the triangle. It is very common for Earth scientists to store values of various Earth properties on a grid that spans the globe. For convenience, they almost always choose a grid which is evenly spaced in both latitude and longitude over the surface of the globe. While these grids are evenly spaced in latitude-longitude coordinates, they are in reality very unevenly spaced when cell size is evaluated in square km since lines of longitude converge at the poles. Tessellations consisting of a set of approximately equal area triangles that span the globe are much more efficient way to impose a grid onto the surface of a sphere. The GeoTess software facilitates interacting with a triangular tessellation of a sphere and could significantly increase the efficiency of Earth science software codes. The code can construct variable resolution triangular tessellations. It can also load a previously constructed tessellation from an input file and implements a \"walking triangle\" search algorithm to find the index of the triangle on the tessellation that contains a user specified point of interest. It also computes the interpolation coefficients that should be applied to data stored on the nodes of the containing triangle", + "homepageURL": "http://www.sandia.gov/geotess", + "laborHours": 0, + "languages": [], + "name": "GeoTess v. 2.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/geotess", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "SHOE is research code for characterizing and visualizing higher-order finite elements; it contains a framework for defining classes of interpolation techniques and element shapes; methods for interpolating triangular, quadrilateral, tetrahedral, and hexahedral cells using Lagrange and Legendre polynomial bases of arbitrary order; methods to decompose each element into domains of constant gradient flow (using a polynomial solver to identify critical points); and an isocontouring technique that uses this decomposition to guarantee topological correctness. Please note that this is an alpha release of research software and that some time has passed since it was actively developed; build- and run-time issues likely exist.", + "homepageURL": "https://midas3.kitware.com/midas/folder/10328", + "laborHours": 0, + "languages": [], + "name": "Sandia Higher Order Elements (SHOE) v 0.5 alpha", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://midas3.kitware.com/midas/folder/10328", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://midas3.kitware.com/midas/folder/10328", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Uncertainty Quantification (UQ) Toolkit is a software library for the characterizaton and propagation of uncertainties in computational models. For the characterization of uncertainties, Bayesian inference tools are provided to infer uncertain model parameters, as well as Bayesian compressive sensing methods for discovering sparse representations of high-dimensional input-output response surfaces, and also Karhunen-Loève expansions for representing stochastic processes. Uncertain parameters are treated as random variables and represented with Polynomial Chaos expansions (PCEs). The library implements several spectral basis function types (e.g. Hermite basis functions in terms of Gaussian random variables or Legendre basis functions in terms of uniform random variables) that can be used to represent random variables with PCEs. For propagation of uncertainty, tools are provided to propagate PCEs that describe the input uncertainty through the computational model using either intrusive methods (Galerkin projection of equations onto basis functions) or non-intrusive methods (perform deterministic operation at sampled values of the random values and project the obtained results onto basis functions).", + "homepageURL": "http://www.sandia.gov/UQToolkit/", + "laborHours": 0, + "languages": [], + "name": "UQ Toolkit v 2.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/UQToolkit/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "CACTUS is a code that calculates the performance and aero/hydrodynamic loads of a wind or water turbine. The turbine may be either a vertical-axis or a horizontal-axis machine, and may consist of one or more blade curved or straight blades. The performance model is based on a lifting-line free wake formulation that calculates rotor power and blade loads in the time domain. The rotor is treated as a rotating rigid body, such that structural dynamical motions are not modeled. The turbine is assumed to operate within a steady, but possibly sheared, wind or current velocity. For marine hydrokinetic energy applications, the presence of a river/tidal channel bed and water surface boundaries may be modeled.", + "homepageURL": "http://energy.sandia.gov/energy/renewable-energy/wind-power/wind-resources/wind-software-downloads/cactus-software-download/", + "laborHours": 0, + "languages": [], + "name": "Code for Axial and Crossflow Turbine Simulation", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://energy.sandia.gov/energy/renewable-energy/wind-power/wind-resources/wind-software-downloads/cactus-software-download/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://energy.sandia.gov/energy/renewable-energy/wind-power/wind-resources/wind-software-downloads/cactus-software-download/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Our application, the Omics Metadata Management Software (OMMS), answers both needs, empowering experimentalists to generate intuitive, consistent metadata, and to perform bioinformatics analyses and information management tasks via a simple and intuitive web-based interface. Several use cases with short-read sequence datasets are provided to showcase the full functionality of the OMMS, from metadata curation tasks, to bioinformatics analyses and results management and downloading. The OMMS can be implemented as a stand alone-package for individual laboratories, or can be configured for web-based deployment supporting geographically dispersed research teams. Our software was developed with open-source bundles, is flexible, extensible and easily installed and run by operators with general system administration and scripting language literacy.", + "homepageURL": "http://omms.sandia.gov/", + "laborHours": 0, + "languages": [], + "name": "Omics Metadata Management Software v. 1 (OMMS)", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://omms.sandia.gov/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "The RAPTOR computational pipeline identifies microbial nucleic acid sequences present in sequence data from clinical samples. It takes as input raw short-read genomic sequence data (in particular, the type generated by the Illumina sequencing platforms) and outputs taxonomic evaluation of detected microbes in various human-readable formats. This software was designed to assist in the diagnosis or characterization of infectious disease, by detecting pathogen sequences in nucleic acid sequence data from clinical samples. It has also been applied in the detection of algal pathogens, when algal biofuel ponds became unproductive. RAPTOR first trims and filters genomic sequence reads based on quality and related considerations, then performs a quick alignment to the human (or other host) genome to filter out host sequences, then performs a deeper search against microbial genomes. Alignment to a protein sequence database is optional. Alignment results are summarized and placed in a taxonomic framework using the Lowest Common Ancestor algorithm.", + "homepageURL": "http://bioinformatics.sandia.gov/software/", + "laborHours": 0, + "languages": [], + "name": "Rapid Threat Organism Recognition Pipeline", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://bioinformatics.sandia.gov/software/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://bioinformatics.sandia.gov/software/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "NuMAD helps to enable efficient creation and use of high fidelity wind turbine blade models for structural and aerodynamic analysis. NuMAD is a GUI-based tool used to manage the specific geometry and materials inputs required to fully describe a wind turbine blade.", + "homepageURL": "http://energy.sandia.gov/?page_id=2238", + "laborHours": 0, + "languages": [], + "name": "Numerical Manufacturing And Design tool", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://energy.sandia.gov/energy/renewable-energy/wind-power/rotor-innovation/numerical-manufacturing-and-design-tool-numad/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://energy.sandia.gov/?page_id=2238", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "graphMC consists of an implementation of a set of statistical tests that ensure that a Markov chain in the space of graphs has converged to its stationary distribution. The tests are applicable when the graphs have labelled nodes. The tests are applied to the binary time-series traced out by an edge between two selected nodes. The software fits models of a first-order Markov process and an independent draws from a binary distribution to the time-series and selects one based on the BIC scores of the two models. The package consists of (1) an implementation of a Markov chain driving a graph rewiring process that preserves the joint degree distribution of the graph, (2) implementation of the statistical test mentioned above and (3) two examples that show how the Markov chain infrastructure and the statistical tests can be used.", + "homepageURL": "http://www.sandia.gov/~jairay/graphMC/graphMC.html", + "laborHours": 0, + "languages": [], + "name": "graphMC: A package for testing the independence of graphs", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.sandia.gov/~jairay/graphMC/graphMC.html", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/~jairay/graphMC/graphMC.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "NetMOD is a tool to model the performance of global ground-based explosion monitoring systems. The initial version of the software supports the simulation of seismic detection capability. The tool provides a user interface to execute simulations based upon a hypothetical definition of the monitoring system configuration, geophysical properties of the Earth, and detection analysis criteria.", + "homepageURL": "http://www.sandia.gov/geotess/assets/documents/NetMOD/NetMOD.html", + "laborHours": 0, + "languages": [], + "name": "NetMOD", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/geotess/assets/documents/NetMOD/NetMOD.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The software implements the generative graph algorithm described in the following reference: T. G. Kolda, A. Pinar, T. Plantenga and C. Seshadhri. A Scalable Generative Graph Model with Community Structure, arXiv:1302.6636, March 2013, http:l/arxiv.org/abs/1302.6636. The software also implements the clustering coefficient algorithms described in C. Seshadhri, A. Pinar and T. G. Kolda. Triadic Measures on Graphs: The Power of Wedge Sampling, in Proc. 2013 SIAM International Conference on Data Mining {SDM), May 2013.", + "homepageURL": "http://www.sandia.gov/~tgkolda/feastpack/", + "laborHours": 0, + "languages": [], + "name": "FEASTPACK v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.sandia.gov/~tgkolda/feastpack/#2", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/~tgkolda/feastpack/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "pgarvey@bnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Software to manipulate and describe crystal and molecular structures and set up structural refinements from multiple experimental inputs. Calculation and simulation of structure derived physical quantities. Library for creating customized refinements of atomic structures from available experimental and theoretical inputs.", + "homepageURL": "http://www.diffpy.org", + "laborHours": 0, + "languages": [], + "name": "DiffPy-CMI-Python libraries for Complex Modeling Initiative", + "organization": "Brookhaven National Laboratory (BNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.diffpy.org/products/diffpycmi/license.html", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.diffpy.org", + "status": "Production", + "tags": [ + "DOE CODE", + "Brookhaven National Laboratory (BNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Polytope is a library that wraps several algorithms for generating the Voronoi diagram in both serial and distributed parallel.", + "homepageURL": "https://bitbucket.org/jjphatt/polytope/", + "laborHours": 0, + "languages": [], + "name": "Polytope", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://bitbucket.org/jjphatt/polytope/src/ef2ecd61b60b31a4b7ba95e88f893f2fd7382a80/LICENSE?at=default&fileviewer=file-view-default", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://bitbucket.org/jjphatt/polytope/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "SolidSpheral is an extension of the Spheral open source meshless hydrodynamics method. SolidSpheral adds the capability to model solid materials using analytic equations of state, and a simple damage model to allow for the modeled materials to undergo dynamic damage evolution. SolidSpheral is a distributed parallel code employing MPI for the parallel framework.", + "homepageURL": "https://sourceforge.net/projects/spheral/", + "laborHours": 0, + "languages": [], + "name": "SolidShperal", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://sourceforge.net/projects/spheral/", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2018-02-28" + }, + "description": "The Toolkit for Adaptive Stochastic Modeling and Non-Intrusive ApproximatioN is a collection of robust libraries for high dimensional integration and interpolation as well as parameter calibration. The code consists of several modules that can be used individually or conjointly.", + "laborHours": 0, + "languages": [], + "name": "Tasmanian", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL/Tasmanian", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Code to support, enable, and expand monitoring of network devices, servers, and network services.", + "homepageURL": "http://mathias-kettner.de/checkmk.html", + "laborHours": 0, + "languages": [], + "name": "check_mkcheck_mk (ORNL expansions)", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://mathias-kettner.de/checkmk.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This package implements an optimal-scaling multigrid solver for the (non) linear systems that arise from the discretization of problems with evolutionary behavior. Typically, solution algorithms for evolution equations are based on a time-marching approach, solving sequentially for one time step after the other. Parallelism in these traditional time-integrarion techniques is limited to spatial parallelism. However, current trends in computer architectures are leading twards system with more, but not faster. processors. Therefore, faster compute speeds must come from greater parallelism. One approach to achieve parallelism in time is with multigrid, but extending classical multigrid methods for elliptic poerators to this setting is a significant achievement. In this software, we implement a non-intrusive, optimal-scaling time-parallel method based on multigrid reduction techniques. The examples in the package demonstrate optimality of our multigrid-reduction-in-time algorithm (MGRIT) for solving a variety of parabolic equations in two and three sparial dimensions. These examples can also be used to show that MGRIT can achieve significant speedup in comparison to sequential time marching on modern architectures.", + "homepageURL": "https://computation.llnl.gov/projects/parallel-time-integration-multigrid/software", + "laborHours": 0, + "languages": [], + "name": "Parallel time integration software", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://computation.llnl.gov/projects/parallel-time-integration-multigrid/software", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "joiner@ameslab.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "ThermoPhonon is a stand-alone code, which can be integrated into other software packages. Typically, it is used together with a density functional theory (DFT) code (such as VASP, Wien2k, AbInit, SIESTA) and a phonon code (such as Phonopy or Phon). The workflow is the following. Molecular dynamics (MD) in a supercell at a given temperature T is performed using another code. After sufficient equilibration, the output in the form of atomic positions and forces for a large number of selected MD steps is recorded into a file. If needed, one can modify this file by applying additional constraints, such as enforced crystal symmetry or subtracted motion of the center of mass. ThermoPhonon reads the file with atomic positions and forces and writes a new file with the force constants. Force constants can be used by another code (such as Phonopy or Phon) to produce phonon spectrum for plotting, in the assumption of known equilibrium atomic positions provided in a separate file.", + "homepageURL": "http://lib.dr.iastate.edu/ameslab_software/2/", + "laborHours": 0, + "languages": [], + "name": "ThermoPhonon", + "organization": "Ames Laboratory (AMES)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://lib.dr.iastate.edu/ameslab_software/2/", + "status": "Production", + "tags": [ + "DOE CODE", + "Ames Laboratory (AMES)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "ForQint is a Fortran software library to adaptively integrate multivariable functions versus well known probability distributions (e.g. normal, lognormal, etc.) using quadrature rules. Such integration is known to be more efficient and accurate especially when the function evaluation is expensive. The library also FQint enables the creation of both full and sparse anisotropic multi-dimensional quadrature rules. These latter encompass different such as Gauss-Hermite, Gauss-Legendre, etc. The functions Maher Salloum, Bert Debusschere, Kenny Chowdhary and subroutines rely on the C++ Stokhos package of Trilinos (trilinos.sandia.gov) where the appropriate classes were wrapped into Fortran.", + "homepageURL": "http://www.sandia.gov/~mnsallo/software.html", + "laborHours": 0, + "languages": [], + "name": "ForQint", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.sandia.gov/~mnsallo/software.html", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/~mnsallo/software.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The software is used to fit models of emission fields (e.g., fossil-fuel CO2 emissions) to sparse measurements of gaseous concentrations. Its primary aim is to provide an implementation and a demonstration for the algorithms and models developed in J. Ray, V. Yadav, A. M. Michalak, B. van Bloemen Waanders and S. A. McKenna, \"A multiresolution spatial parameterization for the estimation of fossil-fuel carbon dioxide emissions via atmospheric inversions\", accepted, Geoscientific Model Development, 2014. The software can be used to estimate emissions of non-reactive gases such as fossil-fuel CO2, methane etc. The software uses a proxy of the emission field being estimated (e.g., for fossil-fuel CO2, a population density map is a good proxy) to construct a wavelet model for the emission field. It then uses a shrinkage regression algorithm called Stagewise Orthogonal Matching Pursuit (StOMP) to fit the wavelet model to concentration measurements, using an atmospheric transport model to relate emission and concentration fields. Algorithmic novelties described in the paper above (1) ensure that the estimated emission fields are non-negative, (2) allow the use of guesses for emission fields to accelerate the estimation processes and (3) ensure that under/overestimates in the guesses do not skew the estimation.", + "homepageURL": "http://www.sandia.gov/~jairay/kfcs/kfcs.html", + "laborHours": 0, + "languages": [], + "name": "sparse-msrf:A package for sparse modeling and estimation of fossil-fuel CO2 emission fields", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.sandia.gov/~jairay/kfcs/kfcs.html", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/~jairay/kfcs/kfcs.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Genomic islands are key mobile DNA elements in bacterial evolution, that can distinguish pathogenic strains from each other, or distinguish pathogenic strains from non-pathogenic strains. Their detection in genomes is a challenging problem. We present 3 main software components that attack the island detection problem on two different bases: 1) the preference of islands to insert in chromosomal tRNA or tmRNA genes (islander.pl), and 2) islands' sporadic occurrence among closely related strains. The latter principle is employed in both an algorithm (learnedPhyloblocks.pl) and a visualization method (panGenome.pl). Component islander.pl finds islands based on their preference for a particular target gene type. We annotate each tRNA and tmRNA gene, find fragments of each such gene as candidates for the distal ends of islands, and filter candidates to remove false positives. Component learnedPhyloblocks.pl uses islands found by islander.pl and other methods as a training set to find new islands. Reference genomes are aligned using mugsy, then the \"phylotypes\" or patterns of occurrence in the reference set are determined for each position in the target genome, and those phylotypes most enriched in the training set of islands are followed to detect yet more islands. Component panGenome.pl produces a big-data visualization of the chromosomally-ordered \"pan-genome\", that includes every gene of every reference genome (x-axis, pan-genome order; y-axis, reference genomes; color-coding, gene presence/absence etc.), islands appearing as dark patches.", + "homepageURL": "http://bioinformatics.sandia.gov/software/", + "laborHours": 0, + "languages": [], + "name": "Genomic Island Identification Software v 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://bioinformatics.sandia.gov/software/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://bioinformatics.sandia.gov/software/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Matlab Toolbox for simulating the impact of solar energy on the distribution grid. The majority of the functions are useful for interfacing OpenDSS and MATLAB, and they are of generic use for commanding OpenDSS from MATLAB and retrieving GridPV Toolbox information from simulations. A set of functions is also included for modeling PV plant output and setting up the PV plant in the OpenDSS simulation. The toolbox contains functions for modeling the OpenDSS distribution feeder on satellite images with GPS coordinates. Finally, example simulations functions are included to show potential uses of the toolbox functions.", + "homepageURL": "https://pvpmc.sandia.gov/applications/gridpv-toolbox/", + "laborHours": 0, + "languages": [], + "name": "GridPV Toolbox", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://pvpmc.sandia.gov/applications/gridpv-toolbox/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://pvpmc.sandia.gov/applications/gridpv-toolbox/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The SPARTA package is software for simulating low-density fluids via the Direct Simulation Monte Carlo (DSMC) method, which is a particle-based method for tracking particle trajectories and collisions as a model of a multi-species gas. The main component of SPARTA is a simulation code which allows the user to specify a simulation domain, populate it with particles, embed triangulated surfaces as boundary conditions for the flow, overlay a grid for finding pairs of collision partners, and evolve the system in time via explicit timestepping. The package also includes various pre- and post-processing tools, useful for setting up simulations and analyzing the results. The simulation code runs either in serial on a single processor or desktop machine, or can be run in parallel using the MPI message-passing library, to enable faster performance on large problems.", + "homepageURL": "http://sparta.sandia.gov", + "laborHours": 0, + "languages": [], + "name": "Stochastic PArallel Rarefied-gas Time-accurate Analyzer", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://sparta.sandia.gov", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Performs a cross-correlation calculation to align images. This is particularly useful for aligning frames of a movie so that an object of interest does not spatially drift. For in situ microscopy experiments. Movies are collected where an object changes with time. At the same time, the object usually drifts too. This shifts the movie frames so that the object is aligned from frame to frame. Then it is easy to see the object changes without the added complication of it moving too.", + "homepageURL": "http://freesourcecode.net/matlabprojects/57416/drifty-shifty-deluxe-in-matlab#.Wczt52hyKUk", + "laborHours": 0, + "languages": [], + "name": "Drifty shifty deluxe.m", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://freesourcecode.net/matlabprojects/57416/drifty-shifty-deluxe-in-matlab#.Wczt52hyKUk", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "MGPT is an unclassified source code for the fast evaluation and application of quantum-based MGPT interatomic potentials for mrtals. The present version of MGPT has been developed entirely at LLNL, but is specifically designed for implementation in the open-source molecular0dynamics code LAMMPS maintained by Sandia National Laboratories. Using MGPT in LAMMPS, with separate input potential data, one can perform large-scale atomistic simulations of the structural, thermodynamic, defeat and mechanical properties of transition metals with quantum-mechanical realism.", + "homepageURL": "http://lammps.sandia.gov/download.html", + "laborHours": 0, + "languages": [], + "name": "Fast Model Generalized Pseudopotential Theory Interatomic Potential Routine", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://lammps.sandia.gov/download.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ] + }, + { + "contact": { + "email": "joiner@ameslab.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "HostDesigner is a computer-aided molecular design code that enables the general application of de novo structure-based methods to problems in chemistry and material science. Its purpose is to identify organic molecules with 3D structures that match user-input specifications. To accomplish this, the code connects chemical fragments to build millions of potential molecules, evaluates the resulting structures based on geometric constraints, and outputs a rank-ordered list of candidates. Example applications include the design of metal ion sequestering agents for use in separations processes, molecules that form self-assembled nanoscale containers, and molecular building blocks for metal-organic frameworks.", + "homepageURL": "http://sourceforge.net/projects/hostdesigner-v3-0/", + "laborHours": 0, + "languages": [], + "name": "HostDesigner, Version 3", + "organization": "Ames Laboratory (AMES)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://sourceforge.net/projects/hostdesigner-v3-0/", + "status": "Production", + "tags": [ + "DOE CODE", + "Ames Laboratory (AMES)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-12-13" + }, + "description": "This software generates environmental contours of extreme sea states using buoy observations of significant wave height and energy period or peak period. The code transforms these observations using principal component analysis (PCA) to create an uncorrelated representation of the data. The subsequent components are modeled using probability distributions and parameter fitting functions. The inverse first-order reliability method (I-FORM) is then applied to these models in order to generate an extreme event contour based on a given return period (i.e., 100 years).The subsequent contour is then transformed back into the original input space defined by the variables of interest in order to create an environmental contour of extreme sea states.", + "homepageURL": "http://energy.sandia.gov/energy/renewable-energy/water-power/resource-characterization/extreme-sea-state-contour/", + "laborHours": 0, + "languages": [], + "name": "Extreme_SeaState_Contour_v1", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://energy.sandia.gov/energy/renewable-energy/water-power/resource-characterization/extreme-sea-state-contour/", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://energy.sandia.gov/energy/renewable-energy/water-power/resource-characterization/extreme-sea-state-contour/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "LuaCLRBridge is a library which provides an interface for hosting Lua within .NET applications and facilitating interoperability between the two runtimes.", + "homepageURL": "https://bitbucket.org/luaclrbridge/luaclrbridge/src", + "laborHours": 0, + "languages": [], + "name": "Lua-CLR Bridge", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mpl-2.0", + "name": "MPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://bitbucket.org/luaclrbridge/luaclrbridge/src", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Geospatial Toolkit is an NREL-developed map-based software application that integrates resource data and other geographic information systems (GIS) data for integrated resource assessment. The non-resource, country-specific data for each toolkit comes from a variety of agencies within each country as well as from global datasets. Originally developed in 2005, the Geospatial Toolkit was completely redesigned and re-released in November 2010 to provide a more modern, easier-to-use interface with considerably faster analytical querying capabilities. The revised version of the Geospatial Toolkit has been released for all original toolkit countries/regions and each software package is made available on NREL's website,", + "homepageURL": "http://www.nrel.gov/international/geospatial_toolkits.html", + "laborHours": 0, + "languages": [], + "name": "Geospatial Toolkit", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.nrel.gov/international/geospatial_toolkits.html", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This software contains a set of python modules – input, search, cluster, analysis; these modules read input files containing spatial coordinates and associated attributes which can be used to perform nearest neighbor search (spatial indexing via kdtree), cluster analysis/identification, and calculation of spatial statistics for analysis.", + "homepageURL": "http://spparks.sandia.gov/", + "laborHours": 0, + "languages": [], + "name": "cluster trials v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://spparks.sandia.gov/", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Sandia SPT is designed as software to accompany a book chapter being published a methods chapter which provides an introduction on how to label and track individual proteins. The Sandia Simple Particle Tracking code uses techniques common to the image processing community, where its value is that it facilitates implementing the methods described in the book chapter by providing the necessary open-source code. The code performs single particle spot detection (or segmentation and localization) followed by tracking (or connecting the detected particles into trajectories). The book chapter, which along with the headers in each file, constitutes the documentation for the code is: Anthony, S.M.; Carroll-Portillo, A.; Timlon, J.A., Dynamics and Interactions of Individual Proteins in the Membrane of Living Cells. In Anup K. Singh (Ed.) Single Cell Protein Analysis Methods in Molecular Biology. Springer", + "homepageURL": "http://www.sandia.gov/bioenergy-biodefense/software.html", + "laborHours": 0, + "languages": [], + "name": "Sandia Simple Particle Tracking (Sandia SPT) v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.sandia.gov/bioenergy-biodefense/software.html", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ] + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The SDET Tool is used to create open-access power grid data sets and facilitate updates of these data sets by the community. Pacific Northwest National Laboratory (PNNL) and its power industry and software vendor partners are developing an innovative sustainable data evolution technology (SDET) to create open-access power grid datasets and facilitate updates to these datasets by the power grid community. The objective is to make this a sustained effort within and beyond the ARPA-E GRID DATA program so that the datasets can evolve over time and meet the current and future needs for power grid optimization and potentially other applications in power grid operation and planning.", + "homepageURL": "https://egriddata.org/dataset/sdet-tool", + "laborHours": 0, + "languages": [], + "name": "Sustainable Data Evolution Technology for Power Grid Optimization", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://egriddata.org/dataset/sdet-tool", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://egriddata.org/dataset/sdet-tool", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ] + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Socorro can be used to compute the ground-state electron density for a periodically repeated simulation cell in which the external potential is obtained from norm-conserving pseudopotentials or projector-augmented-wave functions. The ground-state electron density is computed by summation over one-electron orbitals which are obtained using the Kohn-Sham formulation of density-functional theory and which are expanded in a plane-wave basis. 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Other contributions include the addition of periodic and wall boundary conditions.", + "laborHours": 0, + "languages": [], + "name": "TESS", + "organization": "Argonne National Laboratory (ANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/diatomic/tess2", + "status": "Production", + "tags": [ + "DOE CODE", + "Argonne National Laboratory (ANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Ravel is a tool for analyzing and visualizing parallel execution traces. It deduces a logical structure of parallel program events from the trace records and calculates comparative metrics. 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PIKA implements three equations: the phase-field equation for tracking the evolution of the ice-air interface within seasonal snow at the grain-scale; the heat equation for computing the temperature of both the ice and air within the snow; and the mass transport equation for monitoring the diffusion of water vapor in the pore space of the snow.", + "laborHours": 0, + "languages": [], + "name": "Snow Micro-Structure Model", + "organization": "Idaho National Laboratory (INL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/idaholab/pika", + "status": "Production", + "tags": [ + "DOE CODE", + "Idaho National Laboratory (INL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "laymancelk@ornl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Lestre performs a high-speed scan of the Lustre metadata target, and provides a listing of files that match a user-specified criteria, such as modification time, inode number, or if its data resides on specific OSTs. The output format is configurable, as is the parameters it uses to perform IO.", + "laborHours": 0, + "languages": [], + "name": "Lester, the Lustre Lister", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL-TechInt/lester", + "status": "Production", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "This site allows state data contributors to validate their WFS services against a specified schema for tier 3 data. 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IN ADDITION TO VISUALIZATION WITHIN THE APPLICATION, THE INTERFACE PROVIDES THE INFORMATION NECESSARY FOR USERS TO ACCESS THE DATA FROM OTHER APPLICATIONS.", + "laborHours": 0, + "languages": [], + "name": "National Geothermal Database", + "organization": "CONTR", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ngds/documents", + "status": "Production", + "tags": [ + "DOE CODE" + ], + "vcs": "git" + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Django app for converting CSV records to XML metadata documents. 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KINSOL is a general-purpose nonlinear system solver based on Newton-Krylov and fixed-point solver technologies [2].", + "laborHours": 0, + "languages": [], + "name": "General purpose nonlinear system solver based on Newton-Krylov method.", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/sundials/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/sundials", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Avalaunch implements a tree-based process launcher. 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The goal is to start MPI jobs having hundreds of thousands of processes within seconds.", + "laborHours": 0, + "languages": [], + "name": "Avalaunch", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/LLNL/avalaunch/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/avalaunch", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The av_sys_image_mgr utility provides an interface for the creation, manipulation, and analysis of system boot images for computer systems. It is primarily intended to provide a convenient method for managing the introduction of changes to boot images for long-lived production HPC systems.", + "laborHours": 0, + "languages": [], + "name": "Auto-Versioning Systems Image Manager", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/NERSC/avs_image_mgr/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NERSC/avs_image_mgr", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Enables UNIX and Mac OS X command line users to put (individually or batch mode) local ascii files into Google Documents, where the ascii is converted to Google Document format using formatting the user can specify.", + "laborHours": 0, + "languages": [], + "name": "ascii2gdocs", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/stefanlasiewski/ascii2gdocs/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/stefanlasiewski/ascii2gdocs", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "The Atmospheric Radiation Measurement (ARM) Data Integrator (ADI) streamlines the development of scientific algorithms and analysis of time-series NetCDF data, and improves the content and consistency of the output data products produced by these algorithms. The framework automates the process of retrieving and preparing data for analysis, and allows users to design output data products through a graphical interface. It also provides a modular, flexible software development architecture that scientists can use to generate C, Python, and IDL source code templates that embed the pre and post processing logic allowing the scientist to focus on only their science. The input data, preprocessing, and output data specifications of algorithms are defined through a graphical interface and stored in a database. ADI implements workflow for data integration and supports user access to data through a library of software modules. Data preprocess capabilities supported include automated retrieval of data from input files, merging the retrieved data into appropriately sized chunks, and transformation of the data onto a common coordinate system grid. Through the graphical interface, users can view the details of both their data products and those in the ARM catalog and allows developers to use existing data product to build new data products. Views of the output data products include an overlay of how the design meets ARM archive's data standards providing the user with a visual cue indicating where their output violates an archive standard. The ADI libraries access the information provided through the GUI via a Postgres database. The ADI framework and its supporting components can significantly decrease the time and cost of implementing scientific algorithms while improving the ability of scientists to disseminate their results.", + "laborHours": 0, + "languages": [], + "name": "ARM Data Integrator", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ARM-DOE/ADI/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ARM-DOE/ADI", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "aespiritu@lbl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Physical device safety is typically implemented locally using embedded controllers, while operations safety is primarily performed in control centers. Safe operations can be enhanced by correct design of device-level control algorithms, and protocols, procedures and operator training at the control-room level, but all can fail. Moreover, these elements exchange data and issue commands via vulnerable communication layers. In order to secure these gaps and enhance operational safety, we believe monitoring of command sequences must be combined with an awareness of physical device limitations and automata models that capture safety mechanisms. One way of doing this is by leveraging specification-based intrusion detection to monitor for physical constraint violations. The method can also verify that physical infrastructure state is consistent with monitoring information and control commands exchanged between field devices and control centers. This additional security layer enhances protection from both outsider attacks and insider mistakes. We implemented specification-based SCADA command analyzers using physical constraint algorithms directly in the Bro framework and Broccoli APIs for three separate scenarios: a water heater, an automated distribution system, and an over-current protection scheme. To accomplish this, we added low-level analyzers capable of examining control system-specific protocol packets for both Modbus TCP and DNP3, and also higher-level analyzers able to interpret device command and data streams within the context of each device's physical capabilities and present operational state. Thus the software that we are making available includes the Bro/Broccoli scripts for these three scenarios, as well as simulators, written in C, of those scenarios that generate sample traffic that is monitored by the Bro/Broccoli scripts. In addition, we have also implemented systems to directly pull cyber-physical information from the OSIsoft PI historian system. We have included the Python scripts used to perform that monitoring.", + "laborHours": 0, + "languages": [], + "name": "HC-NIDS: signatures and simulations for detecting cyber-attacks aiming to cause damage against cyber-physical energy systems", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/lbnl-cybersecurity/LBNL_Physics_Based_IDS/blob/master/LICENSE.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lbnl-cybersecurity/LBNL_Physics_Based_IDS", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "holdensanchez2@llnl.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "IceNine is a MPI-parallel orientation reconstruction and microstructure analysis code. It's primary purpose is to reconstruct a spatially resolved orientation map given a set of diffraction images from a high energy x-ray diffraction microscopy (HEDM) experiment (1). In particular, IceNine implements the adaptive version of the forward modeling method (2, 3). Part of IceNine is a library used to for conbined analysis of the microstructure with the experimentally measured diffraction signal. The libraries is also designed for tapid prototyping of new reconstruction and analysis algorithms. IceNine is also built with a simulator of diffraction images with an input microstructure.", + "laborHours": 0, + "languages": [], + "name": "Adaptive Forward Modeling Method for Analysis and Reconstructions of Orientation Image Map", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/FrankieLi/IceNine/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/FrankieLi/IceNine", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "Coopr integrates Python packages for defining optimizers, modeling optimization applications, and managing computational experiments. A major driver for Coopr development is the Pyomo package that can be used to define abstract problems, create concrete problem instances, and solve these instances with standard solvers. Other Coopr packages include EXACT, a framework for managing computational experiments, SUCASA, a tool for customizing integer programming solvers, and OPT, a generic optimization interface.", + "laborHours": 0, + "languages": [], + "name": "COOPR: A COmmon Optimization Python Repository v. 1.0", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Pyomo/pyomo", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jcrouch@sandia.gov" + }, + "date": { + "created": "2017-10-25", + "metadataLastUpdated": "2017-10-25" + }, + "description": "BECCA is a learning and control method based on the function of the human brain. The goal behind its creation is to learn to control robots in unfamiliar environments in a way that is very robust, similar to the way that an infant learns to interact with her environment by trial and error. As of this release, this software contains an application for controlling robot hardware through a socket. The code was created so as to make it extensible to new applications. It is modular, object-oriented code in which the portions of the code that are specific to one robot are easily separable from those portions that are the constant between implementations. BECCA makes very few assumptions about the robot and environment it is learning, and so is applicable to a wide range of learning and control problems.", + "laborHours": 0, + "languages": [], + "name": "Brain-Emulating Cognition and Control Architecture (BECCA) v. 0.2 beta", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/microgold/Becca35", + "status": "Production", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "westm@osti.gov" + }, + "date": { + "created": "2017-10-31", + "metadataLastUpdated": "2018-05-16" + }, + "description": "Main repo for managing the new DOE CODE site from the DOE Office of Scientific and Technical Information (OSTI).", + "laborHours": 0, + "languages": [], + "name": "DOE CODE", + "organization": "Office of Scientific and Technical Information (OSTI)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/doecode/doecode/", + "status": "Development", + "tags": [ + "DOE CODE", + "Office of Scientific and Technical Information (OSTI)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "greenwoodms@ornl.gov" + }, + "date": { + "created": "2017-11-09", + "metadataLastUpdated": "2018-05-03" + }, + "description": "A Modelica based library for modeling thermal hydraulic energy systems and other multi-physics systems. \n\nExisting development tools for early stage design and scoping of energy systems are often time consuming to use, proprietary, and do not contain the necessary function to model complete systems (i.e., controls, primary, and secondary systems) in a common platform. The Modelica programming language based TRANSFORM tool (1) provides a standardized, common simulation environment for early design of energy systems (i.e., power plants), (2) provides a library of baseline component modules to be assembled into full plant models using available geometry, design, and thermal-hydraulic data, (3) defines modeling conventions for interconnecting component models, and (4) establishes user interfaces and support tools to facilitate simulation development (i.e., configuration and parameterization), execution, and results display and capture.", + "laborHours": 0, + "languages": [], + "name": "TRANSFORM - TRANsient Simulation Framework of Reconfigurable Models", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/ORNL-Modelica/TRANSFORM-Library/blob/master/LICENSE.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ORNL-Modelica/TRANSFORM-Library", + "status": "Development", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "billingsjj@ornl.gov" + }, + "date": { + "created": "2017-11-15", + "metadataLastUpdated": "2017-11-15" + }, + "description": "Ice Project Main repo", + "laborHours": 0, + "languages": [], + "name": "eclipse/ice", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/epl-1.0", + "name": "EPL-1.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/eclipse/ice", + "status": "Development", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "billingsjj@ornl.gov" + }, + "date": { + "created": "2017-11-15", + "metadataLastUpdated": "2017-12-19" + }, + "description": "Eclipse advanced visualization project", + "laborHours": 0, + "languages": [], + "name": "eclipse/eavp", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/epl-1.0", + "name": "EPL-1.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/eclipse/eavp", + "status": "Development", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "watsongr@ornl.gov" + }, + "date": { + "created": "2017-11-15", + "metadataLastUpdated": "2018-01-09" + }, + "description": "The PTP project provides an integrated development environment to support the development of parallel applications written in C, C++, and Fortran. 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A scalable parallel debugger and support for the integration of a wide range of parallel tools is also included.", + "laborHours": 0, + "languages": [], + "name": "Eclipse Parallel Tools Platform", + "organization": "Oak Ridge National Laboratory (ORNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/epl-1.0", + "name": "EPL-1.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://git.eclipse.org/gitroot/ptp/org.eclipse.ptp.git", + "status": "Development", + "tags": [ + "DOE CODE", + "Oak Ridge National Laboratory (ORNL)" + ] + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-11-21", + "metadataLastUpdated": "2017-11-22" + }, + "description": "This software is a plugin/installer for existing software. Composer (https://getcomposer.org) is a dependency manager for\nPHP. Installer plugins can be created through Composer's plugin API (https://getcomposer.org/doc/articles/custominstallers.\nmd) allowing certain types of packages to be automatically installed to specific paths. Plugins like this exist for\nseveral different frameworks: https://packagist.org/search/?q=installer&type=composer-plugin\nThis software is a plugin to install Drupal modules (https://www.drupal.org/). Drupal has begun supporting Composer as a means of installing and maintaining modules, but requires specific paths for it's various components. These paths can be\nmanually specified in the \"composer.json\" file, or can be automatically determined with a plugin. Currently an installer\nplugin does not exist for Drupal.", + "laborHours": 0, + "languages": [], + "name": "Drupal Installer", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/drupal-installer", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-11-29", + "metadataLastUpdated": "2017-11-29" + }, + "description": "A collection of R packages for statistical computing and analysis", + "laborHours": 0, + "languages": [], + "name": "lhsego/sUtils", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lhsego/sUtils", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-11-29", + "metadataLastUpdated": "2017-11-29" + }, + "description": "The Asset Score Preview API Test Harness is PHP code that will be made publicly accessible to software developers\nsupporting the DOE commercial energy scoring efforts. Asset Score is a DOE funded web-based application that enables cities to interactively describe commercial buildings, identify assets that would affect the energy footprint of the building, and use the Asset Score models (FEDS, Open Studio) to determine the approximate energy score.", + "homepageURL": "https://buildingenergyscore.energy.gov/", + "laborHours": 0, + "languages": [], + "name": "Asset Score API", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://buildingenergyscore.energy.gov/", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ] + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-11-29", + "metadataLastUpdated": "2017-11-30" + }, + "description": "The ISDDD software program simulates a mathematical model, named ISD3 (\"ISDDD\"), developed for describing the time-, concentration- and particle size- dependent dissolution of particles, their delivery to cells, and the delivery and uptake of ions to cells in in vitro liquid test systems. The model is based on a specific formulation of the Population Balance Equation, derived for soluble particles. ISD3 solves for the size and spatial distribution of particle numbers, represented together as a particle number density (that is a function of particle location and diameter). From the number density, all other quantities, such as mass, concentration, size distribution and surface areas are derived. The model can be applied for any initial particle size distribution data by representing the data in terms of the number density. As a result, time dependent solutions can be obtained for all size ranges in a single run of the ISD3 simulation for a given particle type and\nmedia conditions. In the current implementation, particles are treated as spherical in shape and can be modeled as primary particles, agglomerates, or as primary particles coated with proteins. Ions are modeled as a lumped system with a uniform concentration in the liquid media. Particle transport is assumed to occur down the liquid column via diffusion and sedimentation (no fluid convection), and no aggregation/agglomeration, coagulation and break-up of the particles occur during transport. Cellular uptake kinetics of ions and particle dissolution kinetics are currently implemented using empirical models that were developed and calibrated for silver nanoparticles and ions. The ISD3 code is modular, allowing use of the existing equations for the dissolution model and ion uptake, but can be modified to include alternate models developed by the user. Application of ISD3 to another particle system would involve inputting parameters appropriate for the particles and model system. For particle uptake by cells, users have the option to use a no-flux or a perfectly absorbing ‘sticky’ boundary condition. For reactive boundary conditions, the user needs to modify a few lines of the code to express the desired form of the boundary condition (e.g., Robin type of boundary condition).", + "homepageURL": "http://nanodose.pnnl.gov/ModelDownload.aspx", + "laborHours": 0, + "languages": [], + "name": "ISDDD", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://nanodose.pnnl.gov/ModelDownload.aspx", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ] + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2017-12-11", + "metadataLastUpdated": "2018-01-10" + }, + "description": "As supercomputing resources increase, cosmological scientists are able to run more detailed and larger simulations generating massive amounts of data. Analyzing these simulations with an available open-source toolkit is important for collaborative Department of Energy scientific discovery across labs, universities, and other partners. Developed software as a part of this collection include: comparing data with other existing simulations, verifying and validating results with observation databases, new halo finder algorithms, and using analytical tools to get insights into the physics of the\ncosmological universe. The goal of this software project is to provide a set of open-source libraries, tools, and packages for large-scale cosmology that allows scientists to visualize, analyze, and compare large-scale simulation and observational\ndata sets. Developed software will provide a variety of methods for processing, visualization, and analysis of astronomical observation and cosmological simulation data. These tools are intended for deployment on multiple scientific computing\nplatforms, including but not limited to personal computers, cloud computing, experimental sites (telescopes) and high performance supercomputers.", + "laborHours": 0, + "languages": [], + "name": "Framework for Analysis and Visualization of Simulation Data (VizAly)", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/VizAly", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-12-12", + "metadataLastUpdated": "2017-12-13" + }, + "description": "VOLTTRON Application tree (moved from volttron/applications)\nAutomated Identification of Re-tuning Measures", + "laborHours": 0, + "languages": [], + "name": "VOLTTRON/volttron-applications", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/VOLTTRON/volttron-applications/", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-12-12", + "metadataLastUpdated": "2017-12-13" + }, + "description": "Some of the most pressing machine learning applications such as cyber security and object recognition lack enough ground-truth training data to build a classifier. We solve this problem by using unsupervised deep learning techniques to determine when data were anomalous or deviated from the norm. Traditional methods require either specific context dependent expertise to construct models, or prior examples of events and large amounts of well-labeled data to perform machine learning. Some cutting-edge deep learning approaches have been used to characterize complex events, but these have not been applied to the streaming environment and require a great deal of data. We demonstrated the use of an autoencoder and relevant featurization techniques to both learn a feature space and then identify anomalous portions without the aid of labeled data or domain knowledge. In this way, we demonstrated the detection of anomalous features without domain knowledge or tagged examples, and delivered these features to users.", + "laborHours": 0, + "languages": [], + "name": "pnnl/safekit", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/safekit", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2017-12-13", + "metadataLastUpdated": "2017-12-14" + }, + "description": "ModME is a generalization and benchmark framework for the notion of semantic importance. It is primarily used in a stream reasoning context, where hidden information can be extracted out of the data streams.", + "laborHours": 0, + "languages": [], + "name": "ModME", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/modme", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2017-12-13", + "metadataLastUpdated": "2018-05-02" + }, + "description": "CodeVision (formerly MassAV) is a malware analysis workflow system and repository. It began as a simple tool for analyzing a large malware corpus using multiple COTS antivirus engines in parallel. It has since evolved into a unified interface for collecting, storing and analyzing malicious executable code using a variety of COTS and GOTS backends. Not only can CodeVision receive samples from users via its command-line and web interfaces, but it can also operate on continuous network data feeds (e.g., perimeter e-mail attachments, HTTP downloads). The modular analysis framework and simple API give developers the ability to integrate custom and off-the-shelf analysis tools with ease. The system manages scheduling and dependencies, allowing modules to be chained together into analysis-driven workflows. The system is designed as a distributed, load-balanced web service, an architecture that allows it to scale horizontally by adding additional nodes.", + "homepageURL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "laborHours": 0, + "languages": [], + "name": "Codevision 0.x", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "name": "Other" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ] + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-12-19", + "metadataLastUpdated": "2018-01-19" + }, + "description": "ScaLAPACK is a library of high-performance linear algebra routines for parallel distributed memory machines. ScaLAPACK solves dense and banded linear systems, least squares problems, eigenvalue problems, and singular value problems.", + "homepageURL": "http://www.netlib.org/scalapack/", + "laborHours": 0, + "languages": [], + "name": "ScaLAPACK - Scalable Linear Algebra PACKage", + "organization": "Office of Scientific and Technical Information (OSTI)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.netlib.org/scalapack/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://www.netlib.org/scalapack/", + "status": "Development", + "tags": [ + "DOE CODE", + "Office of Scientific and Technical Information (OSTI)" + ] + }, + { + "contact": { + "email": "vowelll@osti.gov" + }, + "date": { + "created": "2017-12-19", + "metadataLastUpdated": "2017-12-19" + }, + "description": "Chombo provides a set of tools for implementing finite difference and finite volume methods for the solution of partial differential equations on block-structured adaptively refined rectangular grids. Both elliptic and time-dependent modules are included. Chombo supports calculations in complex geometries with both embedded boundaries and mapped grids, and Chombo also supports particle methods. Most parallel platforms are supported, and cross-platform self-describing file formats are included.\n\nThe Chombo package is a product of the community of collaborators working with the Applied Numerical Algorithms Group part of the Computational Research Division at LBNL.\n\nChombo is a Swahili word meaning \"tool\" or \"container\".", + "homepageURL": "https://commons.lbl.gov/display/chombo/Chombo+-+Software+for+Adaptive+Solutions+of+Partial+Differential+Equations", + "laborHours": 0, + "languages": [], + "name": "Chombo", + "organization": "Office of Scientific and Technical Information (OSTI)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://commons.lbl.gov/display/chombo/Chombo+copyright", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://commons.lbl.gov/display/chombo/Chombo+-+Software+for+Adaptive+Solutions+of+Partial+Differential+Equations", + "status": "Development", + "tags": [ + "DOE CODE", + "Office of Scientific and Technical Information (OSTI)" + ] + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2018-01-09", + "metadataLastUpdated": "2018-01-10" + }, + "description": "REDUCE is a software toolset enabling cyber security analysts to rapidly discover relationships between malware samples, to extract temporal threat intelligence, and to develop actionable signatures for known and emerging threats. REDUCE performs automated static code analysis and identifies similarities between malware samples in order to support knowledge sharing about related pieces of malware. By integrating with well-established reverse engineering tools, REDUCE speeds up both deep-dive reverse engineering efforts and custom signature generation.", + "homepageURL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "laborHours": 0, + "languages": [], + "name": "REDUCE: Statistically-Guided Reverse Engineering Toolkit", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "name": "Other" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "status": "Development", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ] + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2018-01-11", + "metadataLastUpdated": "2018-01-12" + }, + "description": "The HTEM DB is a public database and web application containing measurements of thin film materials collected using \"high throughput\" (combinatorial) synthesis and measurement processes. This software provides examples of utilizing the HTEM-DB API to access, plot and analyze the data contained therein.", + "laborHours": 0, + "languages": [], + "name": "HTEM-DB API Examples", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/htem-api-examples", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2018-01-11", + "metadataLastUpdated": "2018-01-12" + }, + "description": "The WIND Toolkit HSDS API examples provide example python software notebooks (software) and a javascript visualization that demonstrate use of the HDF Group's HSDS API utilizing data for NREL's WIND Toolkit.", + "laborHours": 0, + "languages": [], + "name": "Wind Toolkit HSDS API Examples", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/nrel/hsds-examples", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2018-01-15", + "metadataLastUpdated": "2018-01-16" + }, + "description": "The converter extracts all the required feeder data information from “Opendss format” files also known as “.dss” files to construct the feeder data spreadsheets to be interfaced with the “ePHASORSIM” simulator.", + "laborHours": 0, + "languages": [], + "name": "DSS2ePHASOR (\"OpenDSS\" files to \"ePHASORSIM\" interface files converter)", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/NREL/DSS2ePHASOR/blob/master/README.txt", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/DSS2ePHASOR", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "jbbrown@lbl.gov" + }, + "date": { + "created": "2018-01-23", + "metadataLastUpdated": "2018-01-24" + }, + "description": "pbdR-enabled HPC-compatible implementation of iRF. Tested on Titan.", + "laborHours": 0, + "languages": [], + "name": "Jromero1208/PBDRiRF", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Jromero1208/PBDRiRF", + "status": "Development", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2018-01-25", + "metadataLastUpdated": "2018-01-26" + }, + "description": "Swiftbat is a set of Python library routines and command-line utilities that have been developed for the purpose of retrieving, analyzing, and displaying data from NASA's Swift spacecraft, especially the data from the Swift Burst Alert Telescope (BAT).", + "laborHours": 0, + "languages": [], + "name": "Swiftbat Python Library", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/swiftbat_python", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-01-26", + "metadataLastUpdated": "2018-01-26" + }, + "description": "We developed a grid reference system-based Unique Building Identifier (UBID). The method converts a building footprint on a map to a unique code. Unlike geographic coordinates (latitude and longitude), which require high precision and can only locate points on the earth, the UBID code records two-dimensional information about a building footprint in a concise and practical manner. The UBID itself is neither a database nor a data schema. Rather, it acts as an external common key between databases to facilitate data mapping. The developed ruleset ensures that individual implementers can reach the same conclusion utilizing publicly available digital maps. It can also automatically resolve discrepancies, caused by physical space or structure changes over time, during data exchange. The method is also flexible and scalable to identify a portion of a building or a group of buildings.", + "laborHours": 0, + "languages": [], + "name": "Unique Building Identifier Generator", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/buildingid", + "status": "Production", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2018-01-29", + "metadataLastUpdated": "2018-01-29" + }, + "description": "The Fast Equilibration of Ocean Tracers Software (FEOTS) is a set of Fortran modules and programs for post-processing output from LANL's Parallel Ocean Program (POP). 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FEOTS additionally offers tools to make use of the diagnosed operators to run offline tracer models in forward or equilibration modes.", + "laborHours": 0, + "languages": [], + "name": "Fast Equilibration of Ocean Tracers Software", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/FEOTS", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2018-01-29", + "metadataLastUpdated": "2018-01-29" + }, + "description": "Software programs Red Pitaya to sweep frequency and records the in phase and quadrature response.", + "laborHours": 0, + "languages": [], + "name": "Resonant Ultrasound Spectroscopy Software", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ffb-LANL/resonant-ultrasound", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2018-01-29", + "metadataLastUpdated": "2018-01-29" + }, + "description": "RuleBuilder is a tool for drawing graphs represented by the BioNetGen rule-based modeling language (BNGL), a domain-specific language used to formulate mathematical models of biochemical interaction networks. 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The code is in 2 versions, a serial version and a parallel version utilizing MPICH2 type Message Passing Interface (MPI or Intel MPI) for solving distributed domains.", + "homepageURL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/portfolio-software.php", + "laborHours": 0, + "languages": [], + "name": "KIVA-hpFE version 1.0.1", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/portfolio-software.php", + "name": "Other" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/portfolio-software.php", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ] + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-20", + "metadataLastUpdated": "2018-03-19" + }, + "description": "SDK for controlling the Adaptable Multiple Power Supplies (AMPS boxes)", + "laborHours": 0, + "languages": [], + "name": "AmpsSDK", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/AmpsSDK", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-20", + "metadataLastUpdated": "2018-03-19" + }, + "description": "Ion mobility mass spectrometry data viewer and extractor, targeted toward PNNL's UIMF files", + "laborHours": 0, + "languages": [], + "name": "Atreyu", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/Atreyu", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-20", + "metadataLastUpdated": "2018-03-19" + }, + "description": "Here, we present the implementation of a Bayesian model (BP-Quant) that uses statistically derived peptides signatures to identify peptides that are outside the dominant pattern, or the existence of multiple over-expressed patterns to improve relative protein abundance estimates. 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A detailed csv results file is created at the end.", + "laborHours": 0, + "languages": [], + "name": "Crosslinking IMS", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/CrossLinkingIMS", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-20", + "metadataLastUpdated": "2018-03-19" + }, + "description": "Exports Sql Server database objects as schema files. Exported objects include tables, views, stored procedures, and functions,plus also database properties including database roles and logins. The program can also export table data to create SQL files with an Insert Into statement for each row.", + "laborHours": 0, + "languages": [], + "name": "DB Schema Export Tool", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/DB-Schema-Export-Tool", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "PRISM Data Management System database schema. 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The system has scaled well as data volume has increased since 2002, while allowing adaptability for incorporating new and improved data analysis tools for more effective proteomics research.", + "laborHours": 0, + "languages": [], + "name": "DBSchema_DMS", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/DBSchema_DMS", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "This is a collection of DDL files that define the database schema used by the Mass and Time Tag System (MTS) component of the Pan-Omics Research Information Storage and Management system (PRISM) at the Pacific Northwest National Laboratory (PNNL). MTS is used to track and quantify peptides and proteins identified in proteomics and related samples.", + "laborHours": 0, + "languages": [], + "name": "DBSchema_MTS", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/DBSchema_MTS", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The DMS Analysis Tool Manager is a part of PRISM, the Proteomics Research Information and Management System. 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The capture manager processes instrument data files, copying them from the instrument to storage servers, validating the data, creating QC graphics, and pushing the data into MyEMSL. Plugin DLLs implement the processing details for each tool.", + "laborHours": 0, + "languages": [], + "name": "DMS Capture Task Manager", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/DMS-Capture-Task-Manager", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The DMS Email Manager obtains data from a SQL Server database using queries defined in a settings file, e-mailing the results of the queries to one or more people. Reports can be e-mailed daily or only on certain days. 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It supports rolling back local files to an older version and auto-deleting extra files.", + "laborHours": 0, + "languages": [], + "name": "DMS Update Manager", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/DMS-Update-Manager", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The PNNL Data Management System (DMS) is composed of a SQL Server backend and website front end to allow PNNL staff to track biomaterial, samples, instrument data, and result files from automated software analyses. 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The software scans data package folders and files, pushing new or changed files into MyEMSL.", + "laborHours": 0, + "languages": [], + "name": "Data Package Archive Manager", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/DataPackage-Archive-Manager", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The DeconEngine includes routines for deconvoluting (deisotoping) observed isotopic signatures in mass spectrometry data to detect features.", + "laborHours": 0, + "languages": [], + "name": "DeconEngineV2", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/DeconEngineV2", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "DeconMSn converts mass spectrometry instrument data to text files, including determining the charge state for each parent ion.", + "laborHours": 0, + "languages": [], + "name": "DeconMSn", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/DeconMSn", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "DeconTools is a software package used for detecting features in MS data by using the isotopic signatures of expected components. 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Alternatively, you can provide two folder paths and the program will compare all of the files in the first folder to the identically named files in the second folder.", + "laborHours": 0, + "languages": [], + "name": "File Comparison Sampler", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/File-Comparison-Sampler", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "This program sorts a text file alphabetically (forward or reverse). It supports both in-memory sorts for smaller files and use of temporary swap files for large files. It can alternatively sort on a column in a tab-delimited or comma-separated file. The column sort mode also supports numeric sorting.", + "laborHours": 0, + "languages": [], + "name": "Flexible File Sort Utility", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/FlexibleFileSortUtility", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "GlyQ-IQ is a program that performs a targeted, chromatographic centric search of mass spectral data for glycans. It is designed for high resolution LC-MS datasets. The software uses a list of glycan targets to search for expected features in MS1 spectra. Features are characterized by monoisotopic mass, elution time, and isotopic fit score. Features are annotated by glycan family relationships and optionally by in-source fragmentation patterns.", + "laborHours": 0, + "languages": [], + "name": "GlyQ-IQ", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/GlyQ-IQ", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "This program processes IMS data in a UIMF file to align all frames to a base frame, adjusting the observed drift times of each frame to align with the base frame.", + "laborHours": 0, + "languages": [], + "name": "IMS Drift Time Aligner", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/IMS-Drift-Time-Aligner", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "ImsInformed is a .NET class library that provides target identification workflows for peptides and metabolites alike in IMS experiment runs.", + "laborHours": 0, + "languages": [], + "name": "ImsInformed Library", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/PNNL-Comp-Mass-Spec/IMS-Informed-Library", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/IMS-Informed-Library", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "InfernoRDN can perform various downstream analyses on large scale datasets from proteomics and microarrays.", + "laborHours": 0, + "languages": [], + "name": "InfernoRDN", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/InfernoRDN", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The Informed Proteomics project includes algorithms for proteomic mass spectrometry data analysis. 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LcmsSpectator is a standalone Windows graphical user interface tool for viewing LC-MS data and identifications.", + "laborHours": 0, + "languages": [], + "name": "LCMS-Spectator", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/PNNL-Comp-Mass-Spec/LCMS-Spectator/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/LCMS-Spectator", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "LIQUID is a software tool for identifying lipids in LC-MS/MS-based lipidomics data. It is described in publication LIQUID: an-open source software for identifying lipids in LC-MS/MS-based lipidomics data (doi: 10.1093/bioinformatics/btx046). LIQUID provides users with the capability to process high throughput data and contains a customizable target library and scoring model per project needs. The graphical user interface provides visualization of multiple lines of spectral evidence for each lipid identification, allowing rapid examination of data for making confident identifications of lipid molecular species.", + "laborHours": 0, + "languages": [], + "name": "LIQUID", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/LIQUID", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "Python scripts of SVM model training and testing used in a publication entitled 'A generalizable method for false-discovery rate estimation in mass spectrometry-based lipidomics'.", + "laborHours": 0, + "languages": [], + "name": "LipidFDR", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/LipidFDR", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "Utility to show the shared folders on the local computer, or on a remote computer", + "laborHours": 0, + "languages": [], + "name": "ListWindowsShares", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/List-Windows-Shares", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "A VB.NET DLL that can read mass spectrometry data from four file formats: mzXML, mzData, concatenated .dta files (_dta.txt), and Mascot Generic Format files (.mgf)", + "laborHours": 0, + "languages": [], + "name": "MsDataFileReader", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/MS-Data-File-Reader", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The MS File Info Scanner can be used to scan a series of MS data files (or data folders) and extract the acquisition start and end times, number of spectra, and the total size of the data. In addition, it can create 2D-plot graphics of the m/z values vs. time for QA purposes.", + "laborHours": 0, + "languages": [], + "name": "MS File Info Scanner", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/MS-File-Info-Scanner", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "DataProcessing toolbox for running MSGF+ and MASIC, then merging the results. Uses Windows batch files to automate the process for a folder of Thermo .Raw files", + "laborHours": 0, + "languages": [], + "name": "MSGFPlus_MASIC_Toolbox", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/MSGFPlus_MASIC_Toolbox", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "Used to generate an Accurate Mass and Time tag database from local MS/MS search engine results (from SEQUEST, X!Tandem, or MSGF+)", + "laborHours": 0, + "languages": [], + "name": "MTDB-Creator", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/MTDB-Creator", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The Mage suite of tools provide access to DMS files and metadata.", + "laborHours": 0, + "languages": [], + "name": "Mage", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/Mage", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "This is a the code and data for a website created to display collision cross section data for metabolites and small molecules. This repository hosts two things. First is the source code (js) for a website created to display collision cross section data for metabolites and other small molecules. The second is the underlying CCS dataset. The growing interest in metabolomic and exposomic studies is also inciting a need for new techniques to analyze these diverse molecules. Mass spectrometry-based studies are often preferred for the confident identification of small molecules. Ion mobility spectrometry (IMS) is capable of separating molecules that have the same m/z but different conformational arrangements, which is very useful in metabolomic and exposomic analyses. As the desire for IMS measurements of metabolites continues to grow, so does the need for high quality collision cross section (CCS) values.", + "laborHours": 0, + "languages": [], + "name": "Metabolomics Collision Cross Section Database and Server", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/MetabolomicsCCS", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "This program can calculate the molecular weight and percent composition of chemical formulas and amino acids, providing a graphical user interface to edit the formulas and parsing options. It recognizes user-definable abbreviations, custom elemental isotopes, and can display up to 20 compounds simultaneously. It also includes a Mole/Mass Converter, Formula Finder, Capillary Flow Modeller, Amino Acid Notation Converter, Peptide Sequence Fragmentation Modeler, Isotopic Distribution Calculator, and built-in calculator. Full program documentation is available by pressing F1 during program operation.", + "laborHours": 0, + "languages": [], + "name": "Molecular Weight Calculator", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/Molecular-Weight-Calculator", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "MwtWinDLL contains utility functions for calculating the molecular weight and percent composition of chemical formulas and amino acids. It recognizes user-definable abbreviations and custom elemental isotopes. It also includes a Mole/Mass Converter, Formula Finder, Capillary Flow Modeller, Amino Acid Notation Converter, Isotopic Distribution Calculator, and Peptide Sequence Fragmentation Modeller. 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It will insert modification symbols into the peptide sequences for modified peptides. Parallel files are created containing sequence information, modification details, and protein information. The user can optionally provide a modification definition file that specifies the symbol to use for each modification mass.", + "laborHours": 0, + "languages": [], + "name": "Peptide Hit Results Processor", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/PHRP", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The PNNL Biodiversity Plugin is a software tool for Skyline and is designed to allow pathway-centric browsing of peptides previously identified by LC-MS/MS. The plugin is designed to assist in SRM assay design or DIA data analysis. Users select an organism and biological pathway of interest, then the plugin shows information about the associated peptides.", + "laborHours": 0, + "languages": [], + "name": "PNNL Biodiversity Library Plugin", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/PNNL-Biodiversity-Library-Plugin", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The PNNL Omics Library (PNNLOmics.dll) is a collection of data analysis, file I/O, and visualization routines used by several of the omics-related software developed at PNNL.", + "laborHours": 0, + "languages": [], + "name": "PNNL OMICS", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/PNNL-Omics", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The PRISM Class Library (PRISM.dll) is a collection of routines used by many of the software tools that support the Proteomics Research Information and Management System (PRISM) at PNNL. Although written for use by PRISM tools, the methods in the PRISM class library are general utility methods, and are not dependent on any PNNL resources.", + "laborHours": 0, + "languages": [], + "name": "PRISM Class Library", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/PRISM-Class-Library", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "C# reader/writer for mzIdentML files (.mzID). Also supports reading mzML files.", + "laborHours": 0, + "languages": [], + "name": "PSI_Interface", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/PSI-Interface", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The PepAligner program can read a file containing peptides and align them to a file of protein sequences (.Fasta or delimited text) using Smith-Waterman alignment.", + "laborHours": 0, + "languages": [], + "name": "PepAligner", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/PepAligner", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The Peptide Fragmentation Modeller is a command-line utility reads that reads in a text file of peptide sequences and generates the theoretical fragmentation pattern for each, outputting the results in a single concatenated DTA file, or in separate .Dta files. The ion intensity values are not predicted values; instead, b, c, y, and z ions are assigned an intensity of 100; while a ions and neutral loss ions receive an intensity of 20.", + "laborHours": 0, + "languages": [], + "name": "Peptide Fragmentation Modeller", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/Peptide-Fragmentation-Modeller", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The PeptideListToXML application reads a tab-delimited text file created by the Peptide Hit Results Processor (PHRP) and creates a PepXML with the appropriate information. The various _SeqInfo files created by PHRP must be present in the same folder as the text file. If the MASIC Scan Stats file is also present, then elution time information will be extracted and included in the PepXML file. You should ideally also include the name of the parameter file used for the MS/MS search engine.", + "laborHours": 0, + "languages": [], + "name": "PeptideListToXML", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/PeptideListToXML", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "A Population Variation plug-in for the Skyline software program that can assist researchers in determining whether their target peptides have known mutations in the general human population.", + "laborHours": 0, + "languages": [], + "name": "Population Variation Plug-In", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/PopulationVariationPlugin", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The Protein Digestion Simulator is a utility for processing FASTA files including converting to/from tab delimited text. It also supports FASTA file validation.", + "laborHours": 0, + "languages": [], + "name": "Protein Digestion Simulator", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/Protein-Digestion-Simulator", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The ProteowizardWrapper is a series of C# classes that can be used to interface with the ProteoWizard libraries.", + "laborHours": 0, + "languages": [], + "name": "ProteowizardWrapper", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/Proteowizard-Wrapper", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "SMAQC computes quality metrics for a LC-MS/MS dataset. 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The MSGF+ or X!Tandem results must be post-processed with the PeptideHitResultsProcessor (PHRP).", + "laborHours": 0, + "languages": [], + "name": "SMAQC", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/SMAQC", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "CodeIgniter based website for browsing QC Metrics stored in DMS", + "laborHours": 0, + "languages": [], + "name": "SMAQC_Website", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/SMAQC_Website", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "SIPPER can be used to automatically detect and quantify partially labeled C13 peptides in a single dataset. It includes a GUI for manual visualization and annotation of detected LC-MS features. It also includes a Simple MS Viewer for exploring mass spectral data. Supports Thermo .Raw files, plus also mzXML, mzML, and mz5.", + "laborHours": 0, + "languages": [], + "name": "Sipper", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/Sipper", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "SpectrumLook can be used to visually inspect the peptide sequence matches (PSMs) against fragmentation spectra in an LC-MS/MS dataset.", + "laborHours": 0, + "languages": [], + "name": "SpectrumLook", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/SpectrumLook", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The Thermo Raw File Reader is a .NET DLL wrapper for Thermo's MS File Reader, which is accessible by creating an account at https://thermo.flexnetoperations.com/control/thmo/login then logging in and choosing \"Utility Software\". 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We utilized a Lasso logistic regression classifier (LLRC) which simultaneously restricts the size of model coefficients and the number of quality metrics included the model. Importantly the model does not treat false-negatives and false-positives as equally deleterious events.", + "laborHours": 0, + "languages": [], + "name": "glmnetGLR", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/PNNL-Comp-Mass-Spec/glmnetGLR/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/glmnetGLR", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "This is a simple C# console program to validate and update the data from MetabolomicsCCS", + "laborHours": 0, + "languages": [], + "name": "MetaboliteValidation", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-Comp-Mass-Spec/metaboliteValidation", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "The Protein Coverage Summarizer can be used to determine the percent of the residues in each protein sequence that have been identified, based on a list of identified peptides. 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The output is images of the flight tracks of birds and bats in PNG format, and a comma-separated value (CSV) file listing the details of the extracted flight tracks.", + "laborHours": 0, + "languages": [], + "name": "ThermalTracker", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/ThermalTracker/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/ThermalTracker", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "Arion is a library and tool set that enables researchers to holistically define test system models. 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Arion is also a software tool that translates the users model back into the specification languages of the simulators and test hardware needed for execution.", + "laborHours": 0, + "languages": [], + "name": "Arion", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/arion/blob/master/LICENSE", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/arion", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "This repository contains sample code written in PHP that allows you to access the Asset Score API. The Department of Energy Building Energy Asset Score (Asset Score) is a national standardized tool for evaluating the physical and structural energy efficiency of commercial and multifamily residential buildings. 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The tool will also identify cost-effective upgrade opportunities and help you gain insight into the energy efficiency potential of your building.", + "laborHours": 0, + "languages": [], + "name": "asset-score-api-test-harness", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/asset-score-api-test-harness/blob/master/Readme.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/asset-score-api-test-harness", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "Trade-offs between microbiome diversity and productivity in a stratified microbial mat", + "laborHours": 0, + "languages": [], + "name": "bernstein-2016-productivity-and-diversity", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/pnnl/bernstein-2016-productivity-and-diversity/blob/master/README.md", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/bernstein-2016-productivity-and-diversity", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "Primary and heterotrophic productivity relate to multi-kingdom diversity in a hypersaline mat", + "laborHours": 0, + "languages": [], + "name": "bernstein-2017-productivity-and-diversity-2", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/bernstein-2017-productivity-and-diversity-2", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-02-21", + "metadataLastUpdated": "2018-03-19" + }, + "description": "BuildingSync® is a common schema for energy audit data that can be utilized by different software and databases involved in the energy audit process. 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Omega_h will do this for you in a way that is fast, memory-efficient, and portable across many different architectures, including NVIDIA GPUs.", + "laborHours": 0, + "languages": [], + "name": "Omega_h", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/ibaned/omega_h", + "status": "Development", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "barno1@llnl.gov" + }, + "date": { + "created": "2018-03-06", + "metadataLastUpdated": "2018-03-06" + }, + "description": "Tool for calibrating 1D coda seismic models", + "laborHours": 0, + "languages": [], + "name": "LLNL/coda-calibration-tool", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/coda-calibration-tool", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-03-06", + "metadataLastUpdated": "2018-03-07" + }, + "description": "Executables for working with EnergyPlus Input Files (IDF) This project aims to provide a suite of executables for working with EnergyPlus Input Files (IDF). 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The Resonance Inspection Techniques & Analyses (RITA) system has been developed to facilitate these and other applications in a user friendly and cost effective package.", + "homepageURL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "laborHours": 0, + "languages": [], + "name": "Resonance Inspection Techniques & Analysis (RITA)", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "name": "Other" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ] + }, + { + "contact": { + "email": "bledsoe2@llnl.gov" + }, + "date": { + "created": "2018-03-07", + "metadataLastUpdated": "2018-03-20" + }, + "description": "ConveyorLC is a high throughput virtual screening pipeline for in-silico screening of virtual compound databases using high performance computing. 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"description": "Interactive machine learning interface\nOur invention allows the user to interact with individual instances, see recommendations for similar items, and make\nadjustments. The scalable nature of our solution allows it to perform instantaneously from the user's perspective, even for\n100K+ data items.", + "laborHours": 0, + "languages": [], + "name": "pnnl/chissl", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/chissl", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-04-26", + "metadataLastUpdated": "2018-04-26" + }, + "description": "Simulation software for biochemical systems that use mass action kinetics based on maximum entropy production. ", + "laborHours": 0, + "languages": [], + "name": "Simulations of State for Biology", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PNNL-CompBio/Boltzmann", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2018-05-01", + "metadataLastUpdated": "2018-05-01" + }, + "description": "Phase Field Dislocation Dynamics (PFDD) is a phase field approach for tracking the motion and interactions of individual dislocations in materials, mostly face-centered cubic (fcc) metals. The phase field approach relies on scalar order parameters or phase field variables to track a quantity of interest. In PFDD, these phase field variables represent the passage of perfect dislocations across each active slip system, with one order parameter defined in each slip system. Partial dislocations are represented with linear combinations of the order parameters. The system is evolved through minimization of the total system energy, which is directly dependent on the phase field variables. All of the physics is described by the total energy functional that is derived from a thermodynamic basis, and the system kinetics are evolved using a Ginzburg-Landau (GL) equation.", + "laborHours": 0, + "languages": [], + "name": "Phase Field Dislocation Dynamics (PFDD)", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/Phase-Field-Dislocation-Dynamics-PFDD", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "ndbrook@sandia.gov" + }, + "date": { + "created": "2018-05-02", + "metadataLastUpdated": "2018-05-02" + }, + "description": "The software is an analyzer for automated sandbox analysis of malware on the OS X operating system. It runs inside an OS X virtual machine to collect data about what happens when a given file opened or run. As of August 2014, there was no sandbox software for Mac OS X malware, as it requires different methods from those used on the Windows OS (which most sandboxes are written for). This software adds OS X analysis capabilities to an existing open-source sandbox, Cuckoo Sandbox (https://cuckoosandbox.org/), which previously only worked for Windows. \n\nThe analyzer itself can take many different types of files as input: the traditional Mach-O and FAT executables, .app files, zip files, Python scripts, Java archives, and web pages, as well as PDFs and other documents. While the file is running, the analyzer also simulates rudimentary human interaction with clicks and mouse movements in order to bypass the tests some malware use to see if they are being analyzed. The analyzer outputs several different kinds of data: functions call traces, network captures, screenshots, and all created and modified files. This work also includes a static analysis Cuckoo module for Mach-O binary files. It extracts file structures, code library imports and exports, and signatures. This data can be used along with the analyzer results to create signatures for malware. ", + "laborHours": 0, + "languages": [], + "name": "sandialabs/mac-sandbox", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sandialabs/mac-sandbox", + "status": "Development", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "ndbrook@sandia.gov" + }, + "date": { + "created": "2018-05-02", + "metadataLastUpdated": "2018-05-02" + }, + "description": "LAPART is an artificial neural network algorithm written in the Python programming language. The algorithm can learn patterns using multi-dimensional hyper boxes. It can also perfrom regression and classification calculations based on learned associations.", + "laborHours": 0, + "languages": [], + "name": "sandialabs/lapart-python", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/unlicense", + "name": "The Unlicense" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/sandialabs/lapart-python", + "status": "Development", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2018-05-02", + "metadataLastUpdated": "2018-05-02" + }, + "description": "The standard scenarios match (sssmatch) tool accepts limited information about an existing transmission system model and computes a new generation mix based on a.) matching a particular NREL Standard Scenario generation mix and b.) minimizing the distance between the system’s original mix and the final one. The distance metric is computed on a nodal basis.", + "laborHours": 0, + "languages": [], + "name": "sssmatch (Standard ScenarioS Match)", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Smart-DS/sssmatch", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "bjoo@jlab.org" + }, + "date": { + "created": "2018-05-08", + "metadataLastUpdated": "2018-05-08" + }, + "description": "QMP Message Passing Library. 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The suite includes tests for bandwidth and latency with any number of threads. This suite was originally developed and release by Sandia National Laboratory. LANL modifications to the suite include a complete re-write of much of the source code, bi-directional bandwidth, and message rate tests.", + "laborHours": 0, + "languages": [], + "name": "RMA-MT Benchmarks ", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/hpc/rma-mt", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2018-05-09", + "metadataLastUpdated": "2018-05-09" + }, + "description": "The forms and workflow developed were designed to collect additional statistical information not normally available in out of- the-box implementations of the Remedy Action Request System designed by BMC Software. 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Computer for which the code Is written:", + "laborHours": 0, + "languages": [], + "name": "PYRANDA", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/lgpl-2.1", + "name": "LGPL-2.1" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/pyranda", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "bledsoe2@llnl.gov" + }, + "date": { + "created": "2018-05-10", + "metadataLastUpdated": "2018-05-10" + }, + "description": "STAT is a light weight debugging tool that gathers and merges stack traces from all of the processes in a parallel application. STAT uses the MRNet tree based overlay network to broadcast commands from the tool front-end to the STAT daemons and for the front-end to gather the traces from the STAT daemons. 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", + "laborHours": 0, + "languages": [], + "name": "Stack Trace Analysis Tool (STAT)", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/STAT", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "svince@lbl.gov" + }, + "date": { + "created": "2018-05-15", + "metadataLastUpdated": "2018-05-15" + }, + "description": "Mota is a library that provides several heuristics for mapping tasks to compute ranks (processes) on a networked computer cluster or supercomputer. It was originally designed for task placement of adaptive mesh refinement codes (AMR). 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The heuristics used for mapping include algorithms such as greedy list assignment and space-filling curves, as well as algorithms from graph analysis such as adjacency matrix bandwidth reduction, recursive bisection, and greedy graph placement.", + "laborHours": 0, + "languages": [], + "name": "Mota Mapper: A Multi-Objective Topology-Aware Mapper Library", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LBL-CoDEx/mota", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-05-15", + "metadataLastUpdated": "2018-05-15" + }, + "description": "Global Memory and Threading runtime system", + "laborHours": 0, + "languages": [], + "name": "pnnl/gmt", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/pnnl/gmt", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "svince@lbl.gov" + }, + "date": { + "created": "2018-05-18", + "metadataLastUpdated": "2018-05-18" + }, + "description": "OpenStudio is a cross-platform collection of software tools to support whole building energy modeling using EnergyPlus and advanced daylight analysis using Radiance.\n\nThis disclosure includes two OpenStudio measures: (1) data center prototype models, and (2) occupant schedule generator. The data center models cover two sizes (small computer server rooms, stand-alone large data centers) and two IT load densities (average and high).", + "laborHours": 0, + "languages": [], + "name": "NREL/OpenStudio", + "organization": "Lawrence Berkeley National Laboratory (LBNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/OpenStudio", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Berkeley National Laboratory (LBNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "svince@lbl.gov" + }, + "date": { + "created": "2018-05-18", + "metadataLastUpdated": "2018-05-21" + }, + "description": "MaDaTS provides an integrated data management and workflow execution framework on multi-tiered storage systems. 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The test sequence focuses on fault scenarios that cause the highest short-circuit fault current contribution; force a swing bus or generator capable of being a swing bus offline; cause the most reconfigurations; and cause conflicting objectives for the microgrid controller. \n\nDuring the test sequence execution multiple datapoints are being recorded and stored. During data postprocessing key performance parameters are extracted allowing quantitative comparison of performance on multiple aspects including: resiliency, fuel utilization, grid interconnection, ancillary services and power quality and eventually after summing all key performance parameters by comparing the overall result.\n\nTo be able to perform such testing multiple tools had to be developed included in this repository including:\n- Real time model of microgrid (Urban-Banshee, Remote-smaller model)\n- Test sequence configuration tools\n- Test execution real-time scripts\n- Post processing scripts\n- Human Machine Interface software", + "laborHours": 0, + "languages": [], + "name": "GHOST (Grid Hardware Open Source Testbed)", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/PowerSystemsHIL/EPHCC/tree/NREL_merge ", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2018-05-22", + "metadataLastUpdated": "2018-05-22" + }, + "description": "SolarPILOT™advances the analytical flux image Hermite series approximation used in DELSOL3 by applying it to individual heliostat images rather than \"zones\", allowing characterization of a wide variety of heliostat field layouts. 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The software will be used at NREL for power tower component design analysis and may be used at other laboratories, in academia, or as a third-party validation tool by some industry groups.", + "laborHours": 0, + "languages": [], + "name": "SolarPILOT™", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/SolarPILOT", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "bledsoe2@llnl.gov" + }, + "date": { + "created": "2018-05-23", + "metadataLastUpdated": "2018-05-23" + }, + "description": "ParELAGMC is a parallel distributed memory C++ library for multilevel Monte Carlo (MLMC) simulations with algebraically constructed coarse spaces for estimating statistical moments of a quantity of interest involving solutions of partial differential equations with uncertain coefficients. A primary focus of the library is the scalable generation of Gaussian random fields using a novel stochastic PDE (SPDE) sampling technique for large-scale simulations. A key feature in the SPDE sampling technique is a novel non-matching mesh embedding technique to mitigate artificial boundary artifacts that are inherent in the method. Example applications to uncertainty quantification of subsurface flow simulations in the mixed finite element setting are provided as well.", + "laborHours": 0, + "languages": [], + "name": "Parallel Element Agglomeration Multilevel Monte Carlo Library (ParELAGMC)", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/parelagmc", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2018-05-23", + "metadataLastUpdated": "2018-05-23" + }, + "description": "Lightweight Python package for assembling, sharing, and running workflows, especially those associated with modifying, running, and analyzing simulation models.", + "laborHours": 0, + "languages": [], + "name": "layerstack", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/Smart-DS/layerstack", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "maggiel@slac.stanford.edu" + }, + "date": { + "created": "2018-05-24", + "metadataLastUpdated": "2018-05-24" + }, + "description": "A python client that talks to the PCDS logbook using the logbook webservice.\n", + "laborHours": 0, + "languages": [], + "name": "LogBookClient", + "organization": "SLAC National Accelerator Laboratory (SLAC)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": 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The tool then serves as an interface to plotting and statistical software packages to facilitate the evaluation of the data and parameter estimation.", + "homepageURL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "laborHours": 0, + "languages": [], + "name": "GeoMatTool, Version 1.0", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "name": "Other" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "http://www.lanl.gov/projects/feynman-center/deploying-innovation/intellectual-property/software-tools/index.php", + "status": "Development", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ] + }, + { + "contact": { + "email": "bledsoe2@llnl.gov" + }, + "date": { + "created": "2018-06-19", + "metadataLastUpdated": "2018-06-19" + }, + "description": "ROVER Is an application for distributed-memory volume rendering and simulated radiography focused on many-core architectures (e.g., GPU, CPU, and MIC). Volume rendering, also known as volume visualization, is a commonly used scientific visualization algorithm that enables users to visualize an entire scalar field at once by mapping scalar values to colors and transparency. Simulated radiography Is a generalization of the volume rendering algorithm from four color channels (I.e., red, green, blue, and transparency) to an arbitrary number of channels representing material opacities in discrete energy groups, measured In electron volts.", + "laborHours": 0, + "languages": [ + "C++" + ], + "name": "ROVER", + "organization": "Lawrence Livermore National Laboratory (LLNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/LLNL/rover", + "status": "Production", + "tags": [ + "DOE CODE", + "Lawrence Livermore National Laboratory (LLNL)" + ], + "vcs": "git", + "version": "0.1.0" + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2018-06-19", + "metadataLastUpdated": "2018-06-19" + }, + "description": "Kappa and BioNetGen (BNGL) are prominent rule-based modeling languages for representing complex biochemical reaction networks. Each language is distributed with a distinct software suite and modelers may wish to take advantage of both toolsets. This application, TRuML, translates models written in either Kappa or BNGL into the other language. While similar in many respects, key differences between the two languages makes translation sufficiently complex that automation becomes a useful tool. TRuML accommodates the languages' complexities and produces a semantically equivalent model in the alternate language of the input model when possible, and an approximate model in certain other cases.", + "laborHours": 0, + "languages": [], + "name": "TRuML", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/lanl/TRuML", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "kbadura@lanl.gov" + }, + "date": { + "created": "2018-06-19", + "metadataLastUpdated": "2018-06-19" + }, + "description": "PyDislocDyn is a suite of python programs designed to perform various calculations for basic research in dislocation dynamics in metals with simple crystal symmetries in the continuum limit. In particular, one of its main purposes is to calculate dislocation drag from phonon wind (i.e. the friction coefficient of a moving crystal defect called a “dislocation” due to its interaction with crystal lattice vibrations or phonons). Additional features include the averaging of elastic constants for polycrystals, the calculation of the dislocation field and the calculation of dislocation self-energy and line tension. ", + "laborHours": 0, + "languages": [], + "name": "PyDislocDyn", + "organization": "Los Alamos National Laboratory (LANL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/dblaschke-LANL/PyDislocDyn", + "status": "Production", + "tags": [ + "DOE CODE", + "Los Alamos National Laboratory (LANL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "ndbrook@sandia.gov" + }, + "date": { + "created": "2018-06-20", + "metadataLastUpdated": "2018-06-20" + }, + "description": "NimbleSM is a Lagrangian finite-element code for solid mechanics. Its primary application is the solution of mechanics problems on nonuniform, three-dimensional meshes using either explicit transient dynamic or implicit quasi-static time integration. Additional features include multiscale modeling and the simulation of contact. The NimbleSM code base is designed for performance portability across varying hardware architectures. ", + "laborHours": 0, + "languages": [], + "name": "NimbleSM", + "organization": "Sandia National Laboratories (SNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NimbleSM/NimbleSM", + "status": "Development", + "tags": [ + "DOE CODE", + "Sandia National Laboratories (SNL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "maggiel@slac.stanford.edu" + }, + "date": { + "created": "2018-06-21", + "metadataLastUpdated": "2018-06-21" + }, + "description": "Securely and quickly copy data from source to target. bbcp is a point-to-point network file copy application. It is capable of transferring files at approaching line speeds in the WAN.\n", + "laborHours": 0, + "languages": [], + "name": "bbcp", + "organization": "SLAC National Accelerator Laboratory (SLAC)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.slac.stanford.edu/~abh/bbcp/#_Toc392015168", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/slaclab/bbcp", + "status": "Development", + "tags": [ + "DOE CODE", + "SLAC National Accelerator Laboratory (SLAC)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "suzanne.hoffman@nrel.gov" + }, + "date": { + "created": "2018-06-26", + "metadataLastUpdated": "2018-06-26" + }, + "description": "The Software is a toolbox for Dynamic Programming and Adaptive Dynamic Programming (ADP) that enables stochastic, multi-period decision optimization for arbitrary \"black box\" models. It’s modular framework is designed to serve as a wrapper for other simulation tools. This enables forward-looking optimization under uncertainty to aid decision making by a variety of stakeholders when facing an increasingly uncertain future. ", + "laborHours": 0, + "languages": [], + "name": "dynamo", + "organization": "National Renewable Energy Laboratory (NREL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/NREL/dynamo", + "status": "Production", + "tags": [ + "DOE CODE", + "National Renewable Energy Laboratory (NREL)" + ], + "vcs": "git" + }, + { + "contact": { + "email": "czhu@pppl.gov" + }, + "date": { + "created": "2018-06-27", + "metadataLastUpdated": "2018-06-27" + }, + "description": "FOCUS uses 3D curves to represent coils in fusion devices, mainly for toroidal devices including stellarators and tokamaks. For a given configuration, FOCUS can find optimal coils, which can produced the required magnetic field for confining the plasma meeting the user-specified physics and engineering constraints.", + "homepageURL": "https://princetonuniversity.github.io/FOCUS/", + "laborHours": 0, + "languages": [ + "Fortran" + ], + "name": "Flexible Optimized Coils Using Space curves (FOCUS)", + "organization": "Princeton Plasma Physics Laboratory (PPPL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "https://princetonuniversity.github.io/FOCUS/", + "status": "Development", + "tags": [ + "DOE CODE", + "Princeton Plasma Physics Laboratory (PPPL)" + ], + "version": "0.3.1" + }, + { + "contact": { + "email": "fpoli@pppl.gov" + }, + "date": { + "created": "2018-06-27", + "metadataLastUpdated": "2018-06-27" + }, + "description": "TRANSP is a 1.5D equilibrium and transport solver for interpretation and prediction of tokamak discharges", + "homepageURL": "https://transpweb.pppl.gov", + "laborHours": 0, + "languages": [], + "name": "TRANSP", + "organization": "Princeton Plasma Physics Laboratory (PPPL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://transpweb.pppl.gov", + "name": "Other" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://transpweb.pppl.gov", + "status": "Development", + "tags": [ + "DOE CODE", + "Princeton Plasma Physics Laboratory (PPPL)" + ] + }, + { + "contact": { + "email": "czhu@pppl.gov" + }, + "date": { + "created": "2018-06-27", + "metadataLastUpdated": "2018-06-27" + }, + "description": "Building on the theoretical foundations of Bruno & Laurence, that three-dimensional, (3D) magnetohydrodynamic (MHD) equilibria with “stepped”-pressure profiles are well-defined and guaranteed to exist, whereas 3D equilibria with integrable magnetic-fields and smooth pressure (or with non-integrable fields and continuous-but-fractal pressure) are pathological. Dr. S.R. Hudson wrote the “Stepped Pressure Equilibrium Code”, (SPEC). SPEC finds minimal-plasma-energy states, subject to the constraints of conserved helicity and fluxes in a collection of nested sub-volumes by extremizing the multi-region, relaxed-MHD (MRxMHD), energy functional, introduced by Dr. M.J. Hole, Dr. S.R. Hudson & Prof. R.L. Dewar.", + "homepageURL": "https://princetonuniversity.github.io/SPEC/", + "laborHours": 0, + "languages": [ + "Fortran" + ], + "name": "Stepped-Pressure Equilibrium Code (SPEC)", + "organization": "Princeton Plasma Physics Laboratory (PPPL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "https://princetonuniversity.github.io/SPEC/", + "status": "Development", + "tags": [ + "DOE CODE", + "Princeton Plasma Physics Laboratory (PPPL)" + ] + }, + { + "contact": { + "email": "czhu@pppl.gov" + }, + "date": { + "created": "2018-06-27", + "metadataLastUpdated": "2018-06-27" + }, + "description": "The STELLOPT code is design to optimize 3D MHD equilibria to a set of target physics parameters encompassing stellarator design and 3D equilibrium reconstruction. It is currently interfaced to the VMEC 3D equilibrium solver.", + "homepageURL": "https://bitbucket.org/lazerson_princeton/stellopt/src/master/", + "laborHours": 0, + "languages": [ + "Fortran" + ], + "name": "STELLOPT", + "organization": "Princeton Plasma Physics Laboratory (PPPL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "https://bitbucket.org/lazerson_princeton/stellopt/src/master/", + "status": "Development", + "tags": [ + "DOE CODE", + "Princeton Plasma Physics Laboratory (PPPL)" + ], + "version": "2.6.0" + }, + { + "contact": { + "email": "ethier@pppl.gov" + }, + "date": { + "created": "2018-06-27", + "metadataLastUpdated": "2018-06-29" + }, + "description": "Global, gyrokinetic PIC code in full general geometry used for studying core microturbulent transport in experimental tokamaks.", + "homepageURL": "http://theorycodes.pppl.wikispaces.net/Theory+Department+Codes", + "laborHours": 0, + "languages": [ + "Fortran" + ], + "name": "Gyrokinetic Tokamak Simulation code (GTS)", + "organization": "Princeton Plasma Physics Laboratory (PPPL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "http://theorycodes.pppl.wikispaces.net/file/detail/TheoryCodeLicenseReleaseForm.pdf", + "name": "Other" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "http://theorycodes.pppl.wikispaces.net/Theory+Department+Codes", + "status": "Development", + "tags": [ + "DOE CODE", + "Princeton Plasma Physics Laboratory (PPPL)" + ] + }, + { + "contact": { + "email": "sku@pppl.gov" + }, + "date": { + "created": "2018-06-27", + "metadataLastUpdated": "2018-06-29" + }, + "description": "XGC (X-point included gyrokinetic code), Version 3 Primary Author: Seunghoe Ku (PPPL, sku@pppl.gov), Robert Hager (PPPL, rhager@pppl.gov) 31 July 2017\nXGC is a gyrokinetic particle-in-cell code, which is sepeciallized in tokamak edge simulatin. The simulation domain can include the magnetic separatrix, magnetic axis and the biased material wall. XGC can run in full-f, total-delta-f, and conventional delta-f mode. The ion is kinetic always except ETG simulation. The electron can be adiabatic, fluid, drift kinetic, or gyrokinetic (for ETG).\nXGC is written in Fortran 90 and is designed for HPCs utilizing MPI, OpenMP, CUDA (GPU), OpenACC (GPU), and vectorization (Intel MIC-KNL). The weak scaling is roughly linear to the maximal nodes of leading HPCs in US.\nThere several versions of XGCs for different purpose: XGC0 is earlist version of XGC0 which is designed for neoclassical transport in the tokamak edge. It uses full-f method, and 00-mode electrostatic field is solved only. RMP and current response can be calculated with coupling with M3D.\nXGC1 is for turbulence simulation with low parallel wavenumber. Piecewise field following coordinates are used to handle low k-parallel perturbation with small (~64) number of toroidal resolution. In total-delta-f method, it utilizes phase space grid in addition to particles, to handel non-maxwellian distribution in the tokamak edge.\nXGCa is axisymmetric version of XGC1 to simulate neoclassical transport.\nReferences: [1] S. Ku et al., Nuclear Fusion 49, 115021 (2009)\n[2] S. Ku, R. Hager, C.S. Chang et al., J. Comp. Physics, 315, 467 (2016) https://doi.org/10.1016/j.jcp.2016.03.062 [2] R. Hager. E.S. Yoon. S.Ku et al., J. Comp. Physics, 315, 644 (2016) https://doi.org/10.1016/j.jcp.2016.03.064 [3] R. Hager, J. Lang et al., Phys. Plasmas 24,054508 (2017) http://dx.doi.org/10.1063/1.4983320", + "homepageURL": "https://epsi.pppl.gov/xgc-users/how-to-become-an-xgc-user", + "laborHours": 0, + "languages": [ + "Fortran" + ], + "name": "XGC", + "organization": "Princeton Plasma Physics Laboratory (PPPL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "http://theorycodes.pppl.wikispaces.net/file/view/TheoryCodeLicenseReleaseForm.pdf/249471929/TheoryCodeLicenseReleaseForm.pdf", + "name": "Other" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "https://epsi.pppl.gov/xgc-users/how-to-become-an-xgc-user", + "status": "Development", + "tags": [ + "DOE CODE", + "Princeton Plasma Physics Laboratory (PPPL)" + ] + }, + { + "contact": { + "email": "nferraro@pppl.gov" + }, + "date": { + "created": "2018-06-27", + "metadataLastUpdated": "2018-07-02" + }, + "description": "M3D-C1 is a code for simulating magnetized plasmas using an extended-MHD model", + "homepageURL": "https://w3.pppl.gov/~nferraro/m3dc1.html", + "laborHours": 0, + "languages": [ + "C++", + "IDL", + "Fortran" + ], + "name": "M3D-C1", + "organization": "Princeton Plasma Physics Laboratory (PPPL)", + "permissions": { + "exemptionText": "This source code is restricted by patent and / or intellectual property law.", + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "exemptByLaw" + }, + "repositoryURL": "https://w3.pppl.gov/~nferraro/m3dc1.html", + "status": "Development", + "tags": [ + "DOE CODE", + "Princeton Plasma Physics Laboratory (PPPL)" + ] + }, + { + "contact": { + "email": "david.long@pnnl.gov" + }, + "date": { + "created": "2018-07-02", + "metadataLastUpdated": "2018-07-02" + }, + "description": "GraphBLAS Template Library (GBTL): graph algorithms and primitives using semiring algebra as defined at graphblas.org", + "laborHours": 0, + "languages": [], + "name": "cmu-sei/gbtl", + "organization": "Pacific Northwest National Laboratory (PNNL)", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/cmu-sei/gbtl", + "status": "Development", + "tags": [ + "DOE CODE", + "Pacific Northwest National Laboratory (PNNL)" + ], + "vcs": "git" + } + ], + "version": "2.0.0" +} diff --git a/data/fetched/DOL.json b/data/fetched/DOL.json index 174a9021..fd4155c5 100644 --- a/data/fetched/DOL.json +++ b/data/fetched/DOL.json @@ -118,6 +118,44 @@ "lastModified": "2017-05-08" } }, + { + "name": "News Release Log", + "organization": "OPA", + "repositoryURL": "https://github.com/USDepartmentofLabor/NewsReleaseLog", + "description": "An application to keep track of news releases by all the agencies.", + "permissions": { + "licenses": [ + { + "URL": "https://creativecommons.org/publicdomain/zero/1.0/", + "name": "CC0" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "News", + "Release", + "Log" + ], + "contact": { + "email": "Yao.sue-li@dol.gov", + "name": "Sue-li Yao" + }, + "status": "Beta", + "vcs": "git", + "homepage": "https://github.com/USDepartmentofLabor", + "downloadURL": "https://github.com/USDepartmentofLabor/NewsReleaseLog/archive/master.zip", + "languages": [ + "ruby on rails", + "javascript" + ], + "laborHours": 1, + "date": { + "created": "2018-07-18", + "lastModified": "2018-07-31" + } + }, { "name": "DEVELOPER", "organization": "OPA", @@ -4098,6 +4136,47 @@ "lastModified": "2018-04-30" } }, + { + "name": "Mobile Child Labor Participant Monitoring Application", + "organization": "ILAB", + "repositoryURL": "https://github.com/USDepartmentofLabor/Mobile-Child-Labor-Participant-Monitoring-Application", + "description": "Mobile-Child-Labor-Participant-Monitoring-Application.", + "permissions": { + "licenses": [ + { + "URL": "https://creativecommons.org/publicdomain/zero/1.0/", + "name": "CC0" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "Mobile", + "Child", + "Labor", + "Participant", + "Monitoring", + "Application" + ], + "contact": { + "email": "Hong.Kevin.C@dol.gov", + "name": "Kevin C Hong" + }, + "status": "Alpha", + "vcs": "git", + "homepage": "https://github.com/USDepartmentofLabor", + "downloadURL": "https://github.com/USDepartmentofLabor/Mobile-Child-Labor-Participant-Monitoring-Application/archive/master.zip", + "languages": [ + "C#", + "Shell" + ], + "laborHours": 1, + "date": { + "created": "2018-05-22", + "lastModified": "2018-06-10" + } + }, { "name": "EnterpriseNotification-IOS", "organization": "OCIO", diff --git a/data/fetched/DOT.json b/data/fetched/DOT.json index 10924b2b..ecc583a4 100644 --- a/data/fetched/DOT.json +++ b/data/fetched/DOT.json @@ -16,12 +16,12 @@ "URL": "", "name": "None - 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Backend is Open Source" } - ] + ], + "usageType": "openSource" }, "languages": [ "PHP" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -214,12 +214,12 @@ "URL": "", "name": "None - Backend is Open Source" } - ] + ], + "usageType": "openSource" }, "languages": [ "PHP" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -247,12 +247,12 @@ "URL": "", "name": "None - Backend is Open Source" } - ] + ], + "usageType": "openSource" }, "languages": [ "PHP" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -280,12 +280,12 @@ "URL": "", "name": "None - Backend is Open Source" } - ] + ], + "usageType": "openSource" }, "languages": [ "PHP" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -313,12 +313,12 @@ "URL": "", "name": "None - Backend is Open Source" } - ] + ], + "usageType": "openSource" }, "languages": [ "PHP" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -346,12 +346,12 @@ "URL": "", "name": "None - Backend is Open Source" } - ] + ], + "usageType": "openSource" }, "languages": [ "PHP" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -379,12 +379,12 @@ "URL": "", "name": "None - Backend is Open Source" } - ] + ], + "usageType": "openSource" }, "languages": [ "PHP" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -412,12 +412,12 @@ "URL": "", "name": "None - Backend is Open Source" } - ] + ], + "usageType": "openSource" }, "languages": [ "PHP" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -445,12 +445,12 @@ "URL": "", "name": "None - Backend is Open Source" } - ] + ], + "usageType": "openSource" }, "languages": [ "PHP" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -478,12 +478,12 @@ "URL": "", "name": "Windows 2012; IIS; Oracle" } - ] + ], + "usageType": "openSource" }, "languages": [ "Java" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -511,12 +511,12 @@ "URL": "", "name": "Windows 2012; IIS; Oracle" } - ] + ], + "usageType": "openSource" }, "languages": [ "null" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -544,12 +544,12 @@ "URL": "", "name": "Windows 2012; IIS; Oracle" } - ] + ], + "usageType": "openSource" }, "languages": [ "null" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -577,13 +577,13 @@ "URL": "", "name": "Windows 2012; Oracle PL/SQL; Oracle Developer" } - ] + ], + "usageType": "openSource" }, "languages": [ "Oracle PL/SQL", "Oracle Developer" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -611,12 +611,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "System used to support the internal operations of the agency.", "tags": [ "transportation", @@ -644,12 +644,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -677,12 +677,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -710,12 +710,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -743,12 +743,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -776,12 +776,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "System used to support the internal operations of the agency.", "tags": [ "transportation", @@ -809,12 +809,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "System used to support the internal operations of the agency.", "tags": [ "transportation", @@ -842,12 +842,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "System used to support the internal operations of the agency.", "tags": [ "transportation", @@ -875,12 +875,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -908,12 +908,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "System used to support the internal operations of the agency.", "tags": [ "transportation", @@ -941,12 +941,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -974,12 +974,12 @@ "URL": "", "name": "Open Source" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "null" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -1007,12 +1007,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -1040,12 +1040,12 @@ "URL": "", "name": "Microsoft" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "Microsoft" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "System used to support the internal operations of the agency.", "tags": [ "transportation", @@ -1073,12 +1073,12 @@ "URL": "", "name": "Appian Cloud licensing package" } - ] + ], + "usageType": "openSource" }, "languages": [ "Appian Cloud licensing package" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -1106,12 +1106,12 @@ "URL": "", "name": "Appian Cloud licensing package" } - ] + ], + "usageType": "openSource" }, "languages": [ "Appian Cloud licensing package" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -1139,12 +1139,12 @@ "URL": "", "name": "Serena Licensing" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "Serena Licensing" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "System used to support the internal operations of the agency.", "tags": [ "transportation", @@ -1172,12 +1172,12 @@ "URL": "", "name": "Appian" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Appian" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -1205,12 +1205,12 @@ "URL": "", "name": "Appian" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Appian" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -1238,12 +1238,12 @@ "URL": "", "name": "Serena" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Serena" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -1271,12 +1271,12 @@ "URL": "", "name": "Drupal/PHP" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Drupal/PHP" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -1304,12 +1304,12 @@ "URL": "", "name": "Drupal/PHP" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Drupal/PHP" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of FTA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -1337,13 +1337,13 @@ "URL": "", "name": "Open Source" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "Application built to support internal functions specific to internal resources", "tags": [ "transportation", @@ -1371,13 +1371,13 @@ "URL": "", "name": "Open Source" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "Website for agency specific mission. Built using FRA CMS which has been made available for open source public consumption", "tags": [ "transportation", @@ -1405,13 +1405,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "openSource" }, "languages": [ "C#", "JavaScript" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -1436,13 +1436,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "openSource" }, "languages": [ "C#", "JavaScript" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -1470,13 +1470,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "Website for FRA specific study and findings. Built using FRA CMS, which is available of ripen source public consumption.", "tags": [ "transportation", @@ -1504,13 +1504,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "Website currently being redesigned in FRA CMS. Current site is outdated code, not ready for public consumption", "tags": [ "transportation", @@ -1538,13 +1538,13 @@ "URL": "", "name": "Open Source" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "Component of FRA CMS, not ready to be packaged as standalone application", "tags": [ "transportation", @@ -1572,13 +1572,13 @@ "URL": "", "name": "Open Source" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "Component of FRA CMS, not ready to be packaged as standalone application", "tags": [ "transportation", @@ -1606,13 +1606,13 @@ "URL": "", "name": "Open Source" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "Component of FRA CMS, not ready to be packaged as standalone application", "tags": [ "transportation", @@ -1640,12 +1640,12 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Foxit PDF" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Javascript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Website for agency specific mission.Built using FRA CMS which has been made available for open source public consumption", "tags": [ "transportation", @@ -1673,12 +1673,12 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Visual Basic" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Dashboard for internal statistical analysis. Not built for public consumption.", "tags": [ "transportation", @@ -1706,13 +1706,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Dashboard for internal statistical analysis. Not built for public consumption.", "tags": [ "transportation", @@ -1740,13 +1740,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Dashboard for internal statistical analysis. Not built for public consumption.", "tags": [ "transportation", @@ -1774,13 +1774,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Dashboard for internal statistical analysis. Not built for public consumption.", "tags": [ "transportation", @@ -1808,13 +1808,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Tracker for internal project or action tracking. Not built for public consumption.", "tags": [ "transportation", @@ -1842,13 +1842,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Tracker for internal project or action tracking. Not built for public consumption.", "tags": [ "transportation", @@ -1876,13 +1876,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencySystem" }, "languages": [ "Objective-C", "Android" ], - "usageType": "exemptByAgencySystem", "exemptiontext": "Mobile application code uses proprietary resources. Not developed for public consumption", "tags": [ "transportation", @@ -1910,13 +1910,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Developed for internal use only.", "tags": [ "transportation", @@ -1944,13 +1944,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Application contains data proprietary to FRA", "tags": [ "transportation", @@ -1978,13 +1978,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Application not intended for public consumption.", "tags": [ "transportation", @@ -2012,13 +2012,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Application designed for reporting on FRA specific actions", "tags": [ "transportation", @@ -2046,13 +2046,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Application in final phases of development. Highly specific to FRA mission", "tags": [ "transportation", @@ -2080,13 +2080,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Application designed for reporting on FRA specific actions", "tags": [ "transportation", @@ -2114,13 +2114,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Application code specific to FRA organizational structure. Relies on commercial framework.", "tags": [ "transportation", @@ -2148,13 +2148,13 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "C#", "JavaScript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Application designed for reporting on FRA specific legal actions", "tags": [ "transportation", @@ -2182,12 +2182,12 @@ "URL": "http://www.telerik.com/purchase/license-agreement/devcraft-complete-dlw-s", "name": "Kendo UI" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Javascript" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Application specific to FRA resources and personnel", "tags": [ "transportation", @@ -2215,13 +2215,13 @@ "URL": "", "name": "Open Source" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Javascript", "HTML5" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Application specific to FRA resources and personnel", "tags": [ "transportation", @@ -2249,13 +2249,13 @@ "URL": "", "name": "Open Source" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Objective-C", "Android" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "Application specific to FRA regulation, resources and personnel", "tags": [ "transportation", @@ -2283,12 +2283,12 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "openSource" }, "languages": [ "Visual Basic" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -2316,7 +2316,8 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "openSource" }, "languages": [ "Objective C", @@ -2324,7 +2325,6 @@ ".NET", "Oracle database" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -2352,13 +2352,13 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Oracle Business Intelligence", "Oracle 11G database" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2386,13 +2386,13 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Java", "Oracle Database" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2417,14 +2417,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Oracle Middleware", "Oracle 11G database", "ADF Java" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2449,14 +2449,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Oracle Middleware", "Oracle 11G database", "ADF Java" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2481,12 +2481,12 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "OBIE" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2511,13 +2511,13 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Java", "Oracle 11G database" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2542,14 +2542,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Oracle Middleware", "Oracle 11G database", "ADF Java" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2574,14 +2574,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Oracle Middleware", "Oracle 11G database", "ADF Java" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2606,14 +2606,14 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Microsoft ASP", ".NET web services", "SQL 2005 database" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2638,14 +2638,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Oracle Middleware", "Oracle 11G database", "ADF Java" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2670,14 +2670,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ ".Net", "Oracle database", "emPower for workflow" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2702,14 +2702,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ ".Net", "Oracle database", "emPower for workflow" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2734,14 +2734,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Oracle Middleware", "Oracle 11G database", "ADF Java" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2766,14 +2766,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Oracle Middleware", "Oracle 11G database", "ADF Java" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2798,13 +2798,13 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "ArcGIS", "Oracle database" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2829,13 +2829,13 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "ArcGIS", "Oracle database" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2860,14 +2860,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Java", "Spring DAO", "Oracle 11G database" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2892,14 +2892,14 @@ "URL": "", "name": "Oracle MySQL" } - ] + ], + "usageType": "exemptByAgencyMission" }, "languages": [ "Oracle Middleware", "Oracle 11G database", "ADF Java" ], - "usageType": "exemptByAgencyMission", "exemptiontext": "System containing information and business logic of PHMSA's stakeholders supports the agency's mission.", "tags": [ "transportation", @@ -2924,13 +2924,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -2955,13 +2955,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -2986,14 +2986,14 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ "PHP", "JavaScript", "HTML5" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3018,7 +3018,8 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ "Javascript", @@ -3026,7 +3027,6 @@ "Entity Framework", ".Net" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3051,7 +3051,8 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ "Javascript", @@ -3059,7 +3060,6 @@ "Entity Framework", ".Net" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3087,7 +3087,8 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ "Javascript", @@ -3095,7 +3096,6 @@ "Entity Framework", ".Net" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3123,7 +3123,8 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ "Javascript", @@ -3131,7 +3132,6 @@ "Entity Framework", ".Net" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3159,7 +3159,8 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ "Javascript", @@ -3167,7 +3168,6 @@ "Entity Framework", ".Net" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3195,13 +3195,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3229,13 +3229,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3263,13 +3263,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3294,13 +3294,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3328,13 +3328,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3362,13 +3362,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3393,13 +3393,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3424,13 +3424,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3455,14 +3455,14 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp", "Angular JS" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3487,12 +3487,12 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3520,12 +3520,12 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3553,12 +3553,12 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "governmentWideReuse" }, "languages": [ ".Net" ], - "usageType": "governmentWideReuse", "exemptiontext": "null", "tags": [ "transportation", @@ -3583,12 +3583,12 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "governmentWideReuse" }, "languages": [ ".Net" ], - "usageType": "governmentWideReuse", "exemptiontext": "null", "tags": [ "transportation", @@ -3616,12 +3616,12 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3649,14 +3649,14 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ "MVC", ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3684,13 +3684,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3718,13 +3718,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "openSource" }, "languages": [ ".Net", "Csharp" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3752,14 +3752,14 @@ "URL": "https://github.com/usdot-its-jpo-data-portal/privacy-protection-application/LICENSE", "name": "Apache 2.0" } - ] + ], + "usageType": "openSource" }, "languages": [ "C++", "Javascript", "HTML" ], - "usageType": "openSource", "exemptiontext": "", "tags": [ "transportation", @@ -3787,14 +3787,14 @@ "URL": "https://github.com/usdot-jpo-ode/jpo-cvdp/LICENSE", "name": "Apache 2.0" } - ] + ], + "usageType": "openSource" }, "languages": [ "C++", "Javascript", "HTML" ], - "usageType": "openSource", "exemptiontext": "", "tags": [ "transportation", @@ -3822,12 +3822,12 @@ "URL": "https://github.com/usdot-its-jpo-data-portal/microsite/blob/master/LICENSE.txt", "name": "Apache 2.0" } - ] + ], + "usageType": "openSource" }, "languages": [ "Javascript" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3855,7 +3855,8 @@ "URL": "https://github.com/usdot-jpo-ode/jpo-ode/blob/develop/LICENSE", "name": "Apache 2.0" } - ] + ], + "usageType": "openSource" }, "languages": [ "Java", @@ -3864,7 +3865,6 @@ "Kafka", "Docker" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -3892,13 +3892,13 @@ "URL": "", "name": "Oracle" } - ] + ], + "usageType": "governmentWideReuse" }, "languages": [ ".Net", "Csharp" ], - "usageType": "governmentWideReuse", "exemptiontext": "null", "tags": [ "transportation", @@ -3926,13 +3926,13 @@ "URL": "", "name": "SQL Server" } - ] + ], + "usageType": "governmentWideReuse" }, "languages": [ ".Net", "Csharp" ], - "usageType": "governmentWideReuse", "exemptiontext": "null", "tags": [ "transportation", @@ -3960,13 +3960,13 @@ "URL": "", "name": "SQL Server" } - ] + ], + "usageType": "governmentWideReuse" }, "languages": [ "C#", "JavaScript" ], - "usageType": "governmentWideReuse", "exemptiontext": "null", "tags": [ "transportation", @@ -3994,13 +3994,13 @@ "URL": "", "name": "SQL Server" } - ] + ], + "usageType": "governmentWideReuse" }, "languages": [ "C#", "JavaScript" ], - "usageType": "governmentWideReuse", "exemptiontext": "null", "tags": [ "transportation", @@ -4028,12 +4028,12 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "governmentWideReuse" }, "languages": [ "Java" ], - "usageType": "governmentWideReuse", "exemptiontext": "null", "tags": [ "transportation", @@ -4061,12 +4061,12 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "governmentWideReuse" }, "languages": [ "Java" ], - "usageType": "governmentWideReuse", "exemptiontext": "null", "tags": [ "transportation", @@ -4094,12 +4094,12 @@ "URL": "", "name": "Oracle, MS .Net Framework" } - ] + ], + "usageType": "governmentWideReuse" }, "languages": [ "Java" ], - "usageType": "governmentWideReuse", "exemptiontext": "null", "tags": [ "transportation", @@ -4127,13 +4127,13 @@ "URL": "", "name": "Null" } - ] + ], + "usageType": "openSource" }, "languages": [ "C#", "Python" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -4161,12 +4161,12 @@ "URL": "", "name": "Null" } - ] + ], + "usageType": "openSource" }, "languages": [ "Visual Basic for Applications" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -4194,13 +4194,13 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "exemptByCIO" }, "languages": [ "AWS Cloudfront", "AWS MySQL" ], - "usageType": "exemptByCIO", "exemptiontext": "This code was not developed with the expectation that it would be released as Open Source. Preliminary review has identified operational procedures which if made public may expose FAA systems to cyber security attacks. Further review is required to fully analyze and mitigate any security issues which may result from making the code public. This review cannot be completed in the time remaining for the current release schedule.", "tags": [ "transportation", @@ -4228,12 +4228,12 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "exemptByCIO" }, "languages": [ "C#" ], - "usageType": "exemptByCIO", "exemptiontext": "This code was not developed with the expectation that it would be released as Open Source. Preliminary review has identified operational procedures which if made public may expose FAA systems to cyber security attacks. Further review is required to fully analyze and mitigate any security issues which may result from making the code public. This review cannot be completed in the time remaining for the current release schedule.", "tags": [ "transportation", @@ -4261,14 +4261,14 @@ "URL": "https://creativecommons.org/publicdomain/zero/1.0/legalcode", "name": "CC0" } - ] + ], + "usageType": "openSource" }, "languages": [ "Java", "XML", "JSON" ], - "usageType": "openSource", "exemptiontext": "null", "tags": [ "transportation", @@ -4296,7 +4296,8 @@ "URL": "", "name": "null" } - ] + ], + "usageType": "exemptByCIO" }, "languages": [ "ColdFusion", @@ -4304,7 +4305,6 @@ "MongoDB", "Oracle" ], - "usageType": "exemptByCIO", "exemptiontext": "This code was not developed with the expectation that it would be released as Open Source. Preliminary review has identified operational procedures which if made public may expose FAA systems to cyber security attacks. Further review is required to fully analyze and mitigate any security issues which may result from making the code public. This review cannot be completed in the time remaining for the current release schedule.", "tags": [ "transportation", diff --git a/data/fetched/EPA.json b/data/fetched/EPA.json index d45d9698..50e550c5 100644 --- a/data/fetched/EPA.json +++ b/data/fetched/EPA.json @@ -188,15 +188,14 @@ "appplication" ], "contact": { - "name": "Name Unknown", - "email": "epamail.epa.gov", - "phone": "(800) 555-1212", - "URL": "https://www.epa.gov" + "name": "Adam Deer", + "email": "Deer.Adam@epa.gov", + "phone": "(703) 676-6705" }, "date": { "created": "2016-07-31", "lastModified": "2016-07-31", - "metadataLastUpdated": "2017-12-01" + "metadataLastUpdated": "2018-05-22" } }, { @@ -364,41 +363,6 @@ "metadataLastUpdated": "2017-12-01" } }, - { - "organization": "USEPA", - "name": "ArcGIS API for JavaScript", - "description": "Learn More The ArcGIS API for JavaScript (JavaScript API) is a browser based API for developing high performance, easy to use mapping applications. The API allows you to easily embed maps in your Web pages. The JavaScript API is hosted by ESRI on ArcGIS Online and is available for free use, subject to the terms and conditions.", - "permissions": { - "licenses": [ - { - "name": "Creative Commons Zero (CC0)", - "URL": "https://path.to/license" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "repositoryURL": "https://code.gov/#/explore-code/agencies/EPA/repos/epa_usepa_arcgis_api_for_javascript", - "languages": [ - "JavaScript" - ], - "laborHours": 0, - "tags": [ - "ArcGIS", - "api" - ], - "contact": { - "name": "Name Unknown", - "email": "epamail.epa.gov", - "phone": "(800) 555-1212", - "URL": "https://www.epa.gov" - }, - "date": { - "created": "2017-09-26", - "lastModified": "2017-09-26", - "metadataLastUpdated": "2017-12-01" - } - }, { "organization": "ORD", "name": "BenMAP-CE", @@ -723,39 +687,6 @@ "metadataLastUpdated": "2017-12-01" } }, - { - "organization": "USEPA", - "name": "Equipment Tracking Module (ETM)", - "description": "The Equipment Tracking Module (ETM) application allows users to track equioment across all EPA Emergency Response warehouses. The application shows the status of each piece of equipment and tracks its maintenance and usage history.", - "permissions": { - "licenses": [ - { - "name": "Creative Commons Zero (CC0)", - "URL": "https://path.to/license" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "repositoryURL": "https://github.com/USEPA", - "languages": [], - "laborHours": 0, - "tags": [ - "equipment", - "tracking" - ], - "contact": { - "name": "Name Unknown", - "email": "epamail.epa.gov", - "phone": "(800) 555-1212", - "URL": "https://www.epa.gov" - }, - "date": { - "created": "2016-07-31", - "lastModified": "2016-07-31", - "metadataLastUpdated": "2017-12-01" - } - }, { "organization": "OEI", "name": "E-Enterprise Portal", @@ -1054,40 +985,6 @@ "metadataLastUpdated": "2017-12-01" } }, - { - "organization": "IESD", - "name": "TCO_Megahack_eRules_Search_Engine_Frontend", - "description": "Search engine front end.", - "permissions": { - "licenses": [ - { - "name": "Creative Commons Zero (CC0)", - "URL": "https://path.to/license" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "repositoryURL": "https://github.com/USEPA", - "languages": [ - "JavaScript, HTML, CSS" - ], - "laborHours": 0, - "tags": [ - "search", - "engine" - ], - "contact": { - "name": "Lico Galindo", - "email": "Galindo.Lico@epa.gov", - "phone": "(202) 566-1252" - }, - "date": { - "created": "2014-01-03", - "lastModified": "2014-01-03", - "metadataLastUpdated": "2017-12-01" - } - }, { "organization": "ORD", "name": "Public Web AppBuilder", @@ -1445,10 +1342,9 @@ "api" ], "contact": { - "name": "Name Unknown", - "email": "epamail.epa.gov", - "phone": "(800) 555-1212", - "URL": "https://www.epa.gov" + "name": "Andrew Yuen", + "email": "Yuen.Andrew@epa.gov", + "phone": "(703) 305-7191" }, "date": { "created": "2017-04-18", @@ -2155,41 +2051,6 @@ "metadataLastUpdated": "2017-12-01" } }, - { - "organization": "USEPA", - "name": "Coding Advanced EPA Search Pages Sample", - "description": "Offers all the options of standard search plus searching for specific fields and applying boolean operators", - "permissions": { - "licenses": [ - { - "name": "Creative Commons Zero (CC0)", - "URL": "https://path.to/license" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "repositoryURL": "https://github.com/USEPA", - "languages": [ - "html" - ], - "laborHours": 0, - "tags": [ - "search", - "sample" - ], - "contact": { - "name": "Name Unknown", - "email": "epamail.epa.gov", - "phone": "(800) 555-1212", - "URL": "https://www.epa.gov" - }, - "date": { - "created": "2016-07-31", - "lastModified": "2016-07-31", - "metadataLastUpdated": "2017-12-01" - } - }, { "organization": "IESD", "name": "EDG Clip-N-Ship flex", @@ -2694,6 +2555,40 @@ "metadataLastUpdated": "2017-12-01" } }, + { + "organization": "USEPA", + "name": "lakemorpho", + "description": "R package to be developed and distributed on Github. In support of lake morphometry database development work conducted at EPA/ORD/NHEERL/AED.", + "permissions": { + "licenses": [ + { + "name": "Creative Commons Zero (CC0)", + "URL": "https://path.to/license" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "repositoryURL": "https://github.com/USEPA/lakemorpho.git", + "languages": [], + "laborHours": 0, + "tags": [ + "Lake", + "morphometry,", + "R", + "Package" + ], + "contact": { + "name": "Jeff Hollister", + "email": "Hollister.Jeff@epa.gov", + "phone": "(401) 782-9655" + }, + "date": { + "created": "2017-09-20", + "lastModified": "2017-05-23", + "metadataLastUpdated": "2017-12-01" + } + }, { "organization": "USEPA", "name": "Software Design, Development and Implementation QA Tracking Database Model", @@ -2760,42 +2655,6 @@ "metadataLastUpdated": "2017-12-01" } }, - { - "organization": "USEPA", - "name": "Term Lookup Tooltip Example Code", - "description": "Example code for how terms should be displayed when using ther term lookup service if displaying the definitions in a tooltip.", - "permissions": { - "licenses": [ - { - "name": "Creative Commons Zero (CC0)", - "URL": "https://path.to/license" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "repositoryURL": "https://github.com/USEPA", - "languages": [ - "HTML, Javascript and CSS" - ], - "laborHours": 0, - "tags": [ - "term", - "code", - "sample" - ], - "contact": { - "name": "Name Unknown", - "email": "epamail.epa.gov", - "phone": "(800) 555-1212", - "URL": "https://www.epa.gov" - }, - "date": { - "created": "2016-07-11", - "lastModified": "2016-07-11", - "metadataLastUpdated": "2017-12-01" - } - }, { "organization": "USEPA", "name": "XCode Data Sample for Envirofacts API, Using RadNet Data", @@ -2818,15 +2677,14 @@ "sample" ], "contact": { - "name": "Name Unknown", - "email": "epamail.epa.gov", - "phone": "(800) 555-1212", - "URL": "https://www.epa.gov" + "name": "Andrew Yuen", + "email": "Yuen.Andrew@epa.gov", + "phone": "(703) 305-7191" }, "date": { "created": "2016-07-31", "lastModified": "2016-07-31", - "metadataLastUpdated": "2017-12-01" + "metadataLastUpdated": "2018-05-22" } }, { @@ -2931,39 +2789,6 @@ "metadataLastUpdated": "2017-12-01" } }, - { - "organization": "EPA", - "name": "IRIS-Trimethylbenzene-PBPK-", - "description": "This project will be developed and stored in a GitHub repository. This will include the revisions after peer review to the PBPK model for the trimethylbenzene IRIS assessment.", - "permissions": { - "licenses": [ - { - "name": "Creative Commons Zero (CC0)", - "URL": "https://path.to/license" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "repositoryURL": "https://github.com/USEPA/IRIS-Trimethylbenzene-PBPK-Model", - "languages": [], - "laborHours": 0, - "tags": [ - "Environment", - "code", - "source" - ], - "contact": { - "name": "Lico Galindo", - "email": "Galindo.Lico@epa.gov", - "phone": "(202) 566-1252" - }, - "date": { - "created": "2017-02-20", - "lastModified": "2017-02-24", - "metadataLastUpdated": "2017-12-01" - } - }, { "organization": "OEI", "name": "NET-DfE Data Sample Envirofacts API", @@ -3133,6 +2958,41 @@ "metadataLastUpdated": "2017-12-01" } }, + { + "organization": "ORD", + "name": "FDTool", + "description": "FDTool is a Python command-line application that mines functional dependencies, equivalences and candidate keys from datasets read in from .csv, .txt, and .pkl files.", + "permissions": { + "licenses": [ + { + "name": "Creative Commons Zero (CC0)", + "URL": "https://path.to/license" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "repositoryURL": "https://github.com/USEPA", + "languages": [ + "python" + ], + "laborHours": 0, + "tags": [ + "mine,", + "dependencies,", + "keys" + ], + "contact": { + "name": "Matthew Buranosky", + "email": "Buranosky.matthew@Epa.gov", + "phone": "919-966-0679" + }, + "date": { + "created": "2018-06-18", + "lastModified": "2018-06-27", + "metadataLastUpdated": "2018-07-02" + } + }, { "organization": "ORD", "name": "lakemorpho_manuscript", @@ -3165,6 +3025,40 @@ "metadataLastUpdated": "2017-12-01" } }, + { + "organization": "ORD", + "name": "EPAs Avoided Emissions and Generation Tool", + "description": "The AVERT app is really two separate apps: The front-end app, and web server app.", + "permissions": { + "licenses": [ + { + "name": "Creative Commons Zero (CC0)", + "URL": "https://path.to/license" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "repositoryURL": "https://github.com/USEPA", + "languages": [ + "JavaScript" + ], + "laborHours": 0, + "tags": [ + "avoided,", + "emissions" + ], + "contact": { + "name": "Courtney Myers", + "email": "courtney.myers@erg.com", + "phone": "(781) 674-7284" + }, + "date": { + "created": "2018-02-11", + "lastModified": "2018-06-20", + "metadataLastUpdated": "2018-07-02" + } + }, { "organization": "USEPA", "name": "Drupal WebCMS GitHub Repository", @@ -3261,37 +3155,6 @@ "metadataLastUpdated": "2018-03-13" } }, - { - "organization": "ORD", - "name": "CompTox-ExpoCast-httk", - "description": "", - "permissions": { - "licenses": [ - { - "name": "Creative Commons Zero (CC0)", - "URL": "https://path.to/license" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "repositoryURL": "https://github.com/USEPA/CompTox-ExpoCast-httk", - "languages": [], - "laborHours": 0, - "tags": [ - "comptox" - ], - "contact": { - "name": "Lico Galindo", - "email": "Galindo.Lico@epa.gov", - "phone": "(202) 566-1252" - }, - "date": { - "created": "2017-09-26", - "lastModified": "2017-09-26", - "metadataLastUpdated": "2017-12-01" - } - }, { "organization": "ORD", "name": "Geographic Response Plan Application", @@ -3360,6 +3223,39 @@ "metadataLastUpdated": "2017-12-01" } }, + { + "organization": "ORD", + "name": "CompTox-ExpoCast-invivoPKfit", + "description": "CompTox-ExpoCast-invivoPKfit", + "permissions": { + "licenses": [ + { + "name": "Creative Commons Zero (CC0)", + "URL": "https://path.to/license" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "repositoryURL": "https://github.com/USEPA", + "languages": [ + "R" + ], + "laborHours": 0, + "tags": [ + "CompTox" + ], + "contact": { + "name": "John Wambaugh", + "email": "Wambaugh.John@epa.gov", + "phone": "(919) 541-7641" + }, + "date": { + "created": "2018-06-08", + "lastModified": "2018-06-08", + "metadataLastUpdated": "2018-07-02" + } + }, { "organization": "USEPA", "name": "Water Distribution Network Model", @@ -3427,6 +3323,108 @@ "metadataLastUpdated": "2017-12-01" } }, + { + "organization": "ORD", + "name": "region_2r", + "description": "This repository contains materials for an R workshop for USEPA Region 2 Staff", + "permissions": { + "licenses": [ + { + "name": "Creative Commons Zero (CC0)", + "URL": "https://path.to/license" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "repositoryURL": "https://github.com/USEPA", + "languages": [ + "R" + ], + "laborHours": 0, + "tags": [ + "workshop" + ], + "contact": { + "name": "Jeff Hollister", + "email": "Hollister.Jeff@epa.gov", + "phone": "(401) 782-9655" + }, + "date": { + "created": "2018-04-26", + "lastModified": "2018-05-31", + "metadataLastUpdated": "2018-07-02" + } + }, + { + "organization": "ORD", + "name": "ri_wq_trends", + "description": "Analysis of WW Lake data for trends", + "permissions": { + "licenses": [ + { + "name": "Creative Commons Zero (CC0)", + "URL": "https://path.to/license" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "repositoryURL": "https://github.com/USEPA", + "languages": [ + "R" + ], + "laborHours": 0, + "tags": [ + "lake", + "data", + "analysis" + ], + "contact": { + "name": "Jeff Hollister", + "email": "Hollister.Jeff@epa.gov", + "phone": "(401) 782-9655" + }, + "date": { + "created": "2018-06-03", + "lastModified": "2018-06-03", + "metadataLastUpdated": "2018-07-02" + } + }, + { + "organization": "ORD", + "name": "micromap", + "description": "ORD for R micromap package development", + "permissions": { + "licenses": [ + { + "name": "Creative Commons Zero (CC0)", + "URL": "https://path.to/license" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "repositoryURL": "https://github.com/USEPA", + "languages": [ + "R" + ], + "laborHours": 0, + "tags": [ + "micromap", + "package" + ], + "contact": { + "name": "Matthew Weber", + "email": "Weber.Matthew@epa.gov", + "phone": "(541) 754-4315" + }, + "date": { + "created": "2015-02-23", + "lastModified": "2018-04-05", + "metadataLastUpdated": "2018-07-02" + } + }, { "organization": "ORD", "name": "ORD@workphase2", @@ -3460,6 +3458,37 @@ "metadataLastUpdated": "2017-12-01" } }, + { + "organization": "ORD", + "name": "ONG-NSPS-OOOOa-Technical-Reconsideration-Analysis", + "description": "ONG-NSPS-OOOOa-Technical-Reconsideration-Analysis", + "permissions": { + "licenses": [ + { + "name": "Creative Commons Zero (CC0)", + "URL": "https://path.to/license" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "repositoryURL": "https://github.com/USEPA", + "languages": [], + "laborHours": 0, + "tags": [ + "analysis" + ], + "contact": { + "name": "Elisabeth Miller", + "email": "Elisabeth.Miller@state.co.us", + "phone": "(303) 692-3516" + }, + "date": { + "created": "2018-05-21", + "lastModified": "2018-05-21", + "metadataLastUpdated": "2018-07-22" + } + }, { "organization": "DMSD", "name": "EPA GeoPlatform Dashboard", @@ -3493,9 +3522,9 @@ } }, { - "organization": "Region 6", - "name": "SDE Layer Menu Add-in to ArcGIS 10", - "description": "An add-in to ArcGIS 10 that allows ArcMap users to turn on GIS layers stored in SDE by simply checking boxes next to layers listed on a pop up menu. Adding layers is quick and easy as the user does not have to manually hunt for layers in SDE.", + "organization": "ORD", + "name": "sustainable-chemistry-synthesis-expert-framework", + "description": "The Sustainable Chemistry Synthesis Expert Framework will allow users to qualitatively evaluate synthesis routes for a chemical to identify potential improvements in the sustainability of the chemical manufacturing process and reduce the number of materials needed for their production.", "permissions": { "licenses": [ { @@ -3507,30 +3536,27 @@ "exemptionText": null }, "repositoryURL": "https://github.com/USEPA", - "languages": [ - "Visual Basic .NET" - ], + "languages": [], "laborHours": 0, "tags": [ - "ArcGIS", - "de", - "gis" + "sustainable", + "chemistry" ], "contact": { - "name": "Jeff Danielson", - "email": "Danielson.Jeff@epa.gov", - "phone": "(000) 000-0000" + "name": "Reggie Washington", + "email": "Washington.Reggie@epa.gov", + "phone": "(202) 564-0423" }, "date": { - "created": "2014-03-25", - "lastModified": "2014-03-25", - "metadataLastUpdated": "2017-12-01" + "created": "2018-05-14", + "lastModified": "2018-05-14", + "metadataLastUpdated": "2018-07-02" } }, { - "organization": "USEPA", - "name": "VIVO Github Repository", - "description": "VIVO is an open source semantic web application that enables the discovery of research and scholarship across disciplinary and geographic boundaries. ORD is currently developing a VIVO instance to assist with expertise location within ORD. This github repository will be used to store ORD VIVO code as well as a means to share it amongst the ORD VIVO team and with other ORD VIVO instance project teams and developers (i.e. Cornell, UFL, USDA, etc.,)", + "organization": "Region 6", + "name": "SDE Layer Menu Add-in to ArcGIS 10", + "description": "An add-in to ArcGIS 10 that allows ArcMap users to turn on GIS layers stored in SDE by simply checking boxes next to layers listed on a pop up menu. Adding layers is quick and easy as the user does not have to manually hunt for layers in SDE.", "permissions": { "licenses": [ { @@ -3542,22 +3568,23 @@ "exemptionText": null }, "repositoryURL": "https://github.com/USEPA", - "languages": [], + "languages": [ + "Visual Basic .NET" + ], "laborHours": 0, "tags": [ - "semantic", - "web", - "application" + "ArcGIS", + "de", + "gis" ], "contact": { - "name": "Name Unknown", - "email": "epamail.epa.gov", - "phone": "(800) 555-1212", - "URL": "https://www.epa.gov" + "name": "Jeff Danielson", + "email": "Danielson.Jeff@epa.gov", + "phone": "(000) 000-0000" }, "date": { - "created": "2016-07-31", - "lastModified": "2016-07-31", + "created": "2014-03-25", + "lastModified": "2014-03-25", "metadataLastUpdated": "2017-12-01" } } diff --git a/data/fetched/GSA.json b/data/fetched/GSA.json index 438829d5..9a9e63b6 100644 --- a/data/fetched/GSA.json +++ b/data/fetched/GSA.json @@ -1,6 +1,6 @@ { - "agency": "GSA", "version": "2.0.0", + "agency": "GSA", "measurementType": { "method": "modules" }, @@ -23,7 +23,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Cron scripts", @@ -43,7 +44,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mobile-fu", @@ -65,7 +67,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/mobile-fu", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "rails-google-visualization-plugin", @@ -87,7 +90,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/rails-google-visualization-plugin", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "apache-log-parser", @@ -109,7 +113,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/apache-log-parser", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "active_scaffold", @@ -131,7 +136,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/active_scaffold", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "fckeditor", @@ -148,18 +154,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/fckeditor", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "aws-s3", "description": "AWS-S3 is a Ruby implementation of Amazon's S3 REST API", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -170,7 +172,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/aws-s3", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "capistrano", @@ -187,7 +190,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/capistrano", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sunspot", @@ -204,7 +208,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sunspot", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "resque-priority", @@ -226,7 +231,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/resque-priority", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "open311-simple-crm", @@ -243,7 +249,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/open311-simple-crm", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datafiles-wordpress-plugin", @@ -260,7 +267,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datafiles-wordpress-plugin", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "federal-open-source-repos-php", @@ -277,7 +285,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/federal-open-source-repos-php", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "federal-open-source-repos", @@ -299,7 +308,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/federal-open-source-repos", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "federal-open-source-repos-ruby", @@ -321,7 +331,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/federal-open-source-repos-ruby", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "gogogon", @@ -338,7 +349,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/gogogon", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-geodatagov", @@ -355,7 +367,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-geodatagov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "digital-strategy", @@ -372,7 +385,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/digital-strategy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "digital-strategy-report-generator", @@ -389,7 +403,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/digital-strategy-report-generator", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ruby-cloudfiles", @@ -406,7 +421,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ruby-cloudfiles", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "U.S. Digital Registry", @@ -430,7 +446,8 @@ "email": "justin.herman@gsa.gov" }, "repositoryURL": "https://github.com/GSA/us-digital-registry", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "digital-strategy-drupal-module", @@ -447,7 +464,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/digital-strategy-drupal-module", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "oauth2-provider", @@ -469,7 +487,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/oauth2-provider", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Open311-Forms-Engine", @@ -486,7 +505,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Open311-Forms-Engine", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "uReport", @@ -503,7 +523,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/uReport", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "open311-proxy", @@ -520,7 +541,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/open311-proxy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mygov-mobile-first-foundation", @@ -542,7 +564,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/mygov-mobile-first-foundation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "slash-developer-pages", @@ -559,7 +582,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/slash-developer-pages", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "pdf-filler", @@ -576,7 +600,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/pdf-filler", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "epa_uv_index", @@ -598,7 +623,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/epa_uv_index", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "apidocs", @@ -620,7 +646,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/apidocs", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "omniauth-mygov", @@ -642,7 +669,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/omniauth-mygov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mygov-bar", @@ -659,7 +687,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/mygov-bar", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mygov-discovery", @@ -676,7 +705,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/mygov-discovery", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mygov-forms", @@ -693,7 +723,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/mygov-forms", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "db-to-api", @@ -710,7 +741,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/db-to-api", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DataBeam", @@ -727,7 +759,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/DataBeam", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "benefits-mockup", @@ -744,7 +777,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/benefits-mockup", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "recalls_api", @@ -766,7 +800,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/recalls_api", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Jobs API", @@ -792,7 +827,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": "https://github.com/GSA/jobs_api", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mygov-feedback-reporting", @@ -809,7 +845,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/mygov-feedback-reporting", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mygov-account", @@ -826,7 +863,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/mygov-account", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "us_states", @@ -848,7 +886,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/us_states", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "labs-html", @@ -865,7 +904,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/labs-html", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mygov-account-php-sdk", @@ -882,7 +922,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/mygov-account-php-sdk", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "usa-faqs", @@ -899,18 +940,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/usa-faqs", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "idm", "description": "Identity Management for Data.gov and Related Systems", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/gpl-2.0", - "name": "GPL-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -921,18 +958,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/idm", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "unclaimed_money", "description": "US Government unclaimed money metasearch", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -943,7 +976,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/unclaimed_money", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "omniauth-openid", @@ -965,7 +999,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/omniauth-openid", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-APIs", @@ -982,7 +1017,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GSA-APIs", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "usfedgov_google_analytics", @@ -1004,7 +1040,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/usfedgov_google_analytics", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "alpha-data-dot-gov", @@ -1021,7 +1058,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/alpha-data-dot-gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-saml2", @@ -1038,7 +1076,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-saml2", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Data.gov", @@ -1059,7 +1098,8 @@ "email": "datagov@gsa.gov" }, "repositoryURL": "https://github.com/GSA/data.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "rack-openid", @@ -1081,7 +1121,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/rack-openid", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "SMR-site-embed", @@ -1098,7 +1139,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/SMR-site-embed", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Mobile-Code-Catalog", @@ -1115,7 +1157,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Mobile-Code-Catalog", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Mobile-Web-Manual-Testing-Script", @@ -1132,7 +1175,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Mobile-Web-Manual-Testing-Script", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "myusa-account-demo", @@ -1149,7 +1193,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/myusa-account-demo", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "federal-apps-gallery-widgets", @@ -1166,7 +1211,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/federal-apps-gallery-widgets", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "USMetadata", @@ -1183,7 +1229,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/USMetadata", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mygov-admin-tasks", @@ -1200,7 +1247,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/mygov-admin-tasks", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "myusa-tasks", @@ -1217,7 +1265,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/myusa-tasks", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-USDA_FSIS", @@ -1234,7 +1283,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-USDA_FSIS", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "hyabusa", @@ -1251,7 +1301,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/hyabusa", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "url_stats", @@ -1268,7 +1319,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "modus-operandi", @@ -1290,7 +1342,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/modus-operandi", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "just_inform", @@ -1307,7 +1360,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/just_inform", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "just_inform_web", @@ -1324,7 +1378,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/just_inform_web", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": ".Gov-Content-as-an-API", @@ -1341,7 +1396,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/.Gov-Content-as-an-API", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-datajson", @@ -1358,7 +1414,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-datajson", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "embedding-data-catalogs", @@ -1380,7 +1437,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/embedding-data-catalogs", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "enterprise-data-inventory", @@ -1397,7 +1455,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/enterprise-data-inventory", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Rewrite_cond", @@ -1416,7 +1475,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "capistrano-resque", @@ -1438,7 +1498,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/capistrano-resque", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-CIO.gov", @@ -1455,7 +1516,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-CIO.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "gman", @@ -1477,7 +1539,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/gman", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "helio", @@ -1494,7 +1557,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/helio", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Government URLs", @@ -1519,7 +1583,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": "https://github.com/GSA/govt-urls", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "logo", @@ -1541,7 +1606,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/logo", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-design", @@ -1558,7 +1624,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datagov-design", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "twitter-widgets-gallery", @@ -1575,7 +1642,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/twitter-widgets-gallery", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Template-Microsite", @@ -1592,7 +1660,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Template-Microsite", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Open-Data-Collaboration-Sandbox", @@ -1609,7 +1678,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Open-Data-Collaboration-Sandbox", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Very-Simple-API", @@ -1626,7 +1696,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Very-Simple-API", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Developer-Feedback-for-Government-APIs", @@ -1643,7 +1714,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Developer-Feedback-for-Government-APIs", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Search.digitalgov.gov", @@ -1669,7 +1741,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": "https://github.com/GSA/search.digitalgov.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "API-Resources", @@ -1691,11 +1764,12 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/API-Resources", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckan-php-client", - "description": "A PHP client for the CKAN data catalog", + "description": "A PHP client for the CKAN data catalog, used by https://github.com/GSA/ckan-php-manager", "permissions": { "licenses": [ { @@ -1713,7 +1787,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckan-php-client", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckan-php-manager", @@ -1739,7 +1814,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckan-php-manager", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "wp-open311", @@ -1761,7 +1837,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/wp-open311", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "data_gov_json_validator", @@ -1778,18 +1855,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/data_gov_json_validator", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "open-data-program-template", "description": "This is a set of artifacts that an organization can use to help bootstrap and support an open data program.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -1800,7 +1873,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/open-data-program-template", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "pod-schema-variants", @@ -1817,7 +1891,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/pod-schema-variants", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "lab2market", @@ -1834,7 +1909,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "P3-CONFIG-AWS", @@ -1851,7 +1927,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "PricesPaidAPI", @@ -1873,7 +1950,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/PricesPaidAPI", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "LAMP-CentOS-with-Vagrant", @@ -1890,7 +1968,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/LAMP-CentOS-with-Vagrant", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckan", @@ -1907,7 +1986,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckan", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-harvest", @@ -1924,7 +2004,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-harvest", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-spatial", @@ -1941,18 +2022,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-spatial", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sam_api", "description": "Documentation to support upcoming data platform API and data sets", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/unlicense", - "name": "Unlicense" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -1963,7 +2040,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sam_api", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "interactive-world-maps", @@ -1980,14 +2058,15 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "depreciated-datagov-wp-deploy", "description": "DEPRECIATED Data.gov deployment scripts. Use this one instead ->", "permissions": { "licenses": null, - "usageType": "openSource", + "usageType": "governmentWideReuse", "exemptionText": null }, "tags": [ @@ -1996,8 +2075,9 @@ "contact": { "email": "gsa-github.support@gsa.gov" }, - "repositoryURL": "https://github.com/GSA/depreciated-datagov-wp-deploy", - "laborHours": 0 + "repositoryURL": null, + "laborHours": 0, + "organization": "GSA" }, { "name": "idp", @@ -2019,7 +2099,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/idp", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "arcgis-map", @@ -2036,7 +2117,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/arcgis-map", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "custom-contact-forms", @@ -2053,7 +2135,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/custom-contact-forms", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "custom-post-view-generator", @@ -2070,7 +2153,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/custom-post-view-generator", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-custom", @@ -2087,7 +2171,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datagov-custom", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "metric-count", @@ -2104,7 +2189,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/metric-count", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "restrict-categories", @@ -2121,7 +2207,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/restrict-categories", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "saml-20-single-sign-on", @@ -2138,7 +2225,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/saml-20-single-sign-on", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sticky-posts-in-category", @@ -2155,7 +2243,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sticky-posts-in-category", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "suggested-datasets", @@ -2172,7 +2261,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/suggested-datasets", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "twitter-posts-to-blog", @@ -2189,7 +2279,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/twitter-posts-to-blog", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "twitter-widget-pro", @@ -2206,7 +2297,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/twitter-widget-pro", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "usa-search", @@ -2223,13 +2315,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/usa-search", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "wordpress-seo", "description": "custom data.gov plugin", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -2240,7 +2338,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/wordpress-seo", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Open-And-Structured-Content-Models", @@ -2257,18 +2356,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Open-And-Structured-Content-Models", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-PIC", "description": "Performance Improvement Council (PIC)", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/gpl-2.0", - "name": "GPL-2.0" - } - ], + "licenses": null, "usageType": "governmentWideReuse", "exemptionText": null }, @@ -2279,7 +2374,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "logstash_conf", @@ -2296,7 +2392,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-DFAS.mil", @@ -2313,7 +2410,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-DFAS.mil", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-qa", @@ -2335,7 +2433,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-qa", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FedCMS-Slider", @@ -2352,7 +2451,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/FedCMS-Slider", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-archiver", @@ -2374,7 +2474,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-archiver", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Bot detection", @@ -2394,7 +2495,8 @@ "email": "dawn.mccleskey@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "PricesPaidGUI", @@ -2411,7 +2513,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "P3-MorrisDataDecorator", @@ -2428,7 +2531,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "P3-AUTH", @@ -2445,7 +2549,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-HHS-ACF.gov", @@ -2462,18 +2567,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-HHS-ACF.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "open.gsa.gov", "description": "A developer hub to share GSA data, APIs, and code.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -2486,7 +2587,8 @@ "email": "cto@gsa.gov" }, "repositoryURL": "https://github.com/GSA/open.gsa.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "P3-JS", @@ -2503,7 +2605,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "instant-comment-validation", @@ -2520,7 +2623,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/instant-comment-validation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ASIS", @@ -2545,7 +2649,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": "https://github.com/GSA/asis", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "simple-tooltips", @@ -2562,7 +2667,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/simple-tooltips", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-googleanalyticsbasic", @@ -2579,7 +2685,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-googleanalyticsbasic", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "wp-external-links", @@ -2601,7 +2708,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/wp-external-links", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-NOAA-CrowdMag", @@ -2618,7 +2726,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-NOAA-CrowdMag", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-ABMC.gov", @@ -2635,7 +2744,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-ABMC.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "IAE-Architecture", @@ -2652,18 +2762,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/IAE-Architecture", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "auctions_api", "description": "An API for GSA auctions data. ", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/unlicense", - "name": "Unlicense" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -2674,18 +2780,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/auctions_api", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "OWSLib", "description": "OWSLib is a Python package for client programming with Open Geospatial Consortium (OGC) web service (hence OWS) interface standards, and their related content models.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/bsd-3-clause", - "name": "BSD-3-Clause" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -2696,7 +2798,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/OWSLib", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-presentations", @@ -2713,7 +2816,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datagov-presentations", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "testsite922", @@ -2730,7 +2834,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/testsite922", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-HHS-MAIN", @@ -2747,7 +2852,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-HHS-MAIN", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-report", @@ -2764,7 +2870,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-report", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "data.gov-styleguide", @@ -2781,7 +2888,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/data.gov-styleguide", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "developers", @@ -2798,7 +2906,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/developers", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "data", @@ -2819,7 +2928,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/data", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-ACQUISITION_NAVIGATOR", @@ -2836,7 +2946,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-ACQUISITION_GATEWAY", @@ -2853,7 +2964,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "data.json-template", @@ -2870,7 +2982,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/data.json-template", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sites-digitalgov-search", @@ -2892,7 +3005,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sites-digitalgov-search", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Very-Simple-API-2", @@ -2909,11 +3023,12 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Very-Simple-API-2", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "sitelink_generator", - "description": "sitelink_generator", + "name": "Sitelink Generator", + "description": "For generating links to additional relevant content within a website, to be displayed next to a given item on a DigitalGov Search results page", "permissions": { "licenses": [ { @@ -2925,13 +3040,18 @@ "exemptionText": null }, "tags": [ - "GSA" + "GSA", + "DigitalGovSearch", + "search", + "website", + "links" ], "contact": { - "email": "gsa-github.support@gsa.gov" + "email": "dawn.mccleskey@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sitelink_generator", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "project-open-data-dashboard-deploy", @@ -2948,18 +3068,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "openIAE", "description": "Space for IAE Architecture and code documentation", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/unlicense", - "name": "Unlicense" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -2970,7 +3086,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/openIAE", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Punchcard", @@ -2994,7 +3111,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": "https://github.com/GSA/punchcard", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-NOAA-CrowdMag--iOS", @@ -3011,7 +3129,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-NOAA-CrowdMag--iOS", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-Central-Artifact-Repository", @@ -3028,7 +3147,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-Central-Artifact-Repository", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-FMI", @@ -3050,7 +3170,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-BuyAccessible", @@ -3067,7 +3188,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-IdManagement", @@ -3084,7 +3206,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DigitalGov Search Content Assets", @@ -3104,18 +3227,14 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "cfpb.github.io", "description": "A site for the CFPB to share and discuss its technology work with the world.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -3126,18 +3245,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/cfpb.github.io", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "social-media-registry-api", "description": "API documentation for the Social Media Registry", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/unlicense", - "name": "Unlicense" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -3148,7 +3263,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/social-media-registry-api", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "api", @@ -3165,7 +3281,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/api", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "labs", @@ -3182,7 +3299,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/labs", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "fssi-file-processor", @@ -3199,7 +3317,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/fssi-file-processor", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "https.cio.gov", @@ -3221,7 +3340,8 @@ "email": "https@cio.gov" }, "repositoryURL": "https://github.com/GSA/https", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-Acquisition_Configuration", @@ -3238,7 +3358,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-NIH-HCI-1-2015", @@ -3255,7 +3376,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-NIH-HCI-1-2015", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "data-json", @@ -3272,18 +3394,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/data-json", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "eMuseum-API", "description": "API documentation for the eMuseum API", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/unlicense", - "name": "Unlicense" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -3294,7 +3412,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/eMuseum-API", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "seo", @@ -3316,7 +3435,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/seo", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "participation-playbook", @@ -3338,7 +3458,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/participation-playbook", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "fssi-log-emailer", @@ -3355,7 +3476,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-ACQUISITION_SOLUTIONMATRIX", @@ -3372,7 +3494,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Holiday-Utility", @@ -3389,7 +3512,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Holiday-Utility", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Membership-Utility", @@ -3406,7 +3530,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Membership-Utility", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "open311-github", @@ -3423,7 +3548,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/open311-github", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-Connect.gov_3-2015", @@ -3440,7 +3566,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-Connect.gov_3-2015", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-ACQUISITION_INTERACT", @@ -3457,7 +3584,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-Drupal_Core", @@ -3479,7 +3607,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "USA.gov-API-Integration", @@ -3496,7 +3625,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/USA.gov-API-Integration", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GitHub-Administration", @@ -3518,7 +3648,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GitHub-Administration", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "i14y", @@ -3544,7 +3675,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": "https://github.com/GSA/i14y", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Salesforce Customer Engagement Org", @@ -3561,7 +3693,8 @@ "email": "mark.vogelgesang@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "agile_accelerator_admin_guide", @@ -3583,7 +3716,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/agile_accelerator_admin_guide", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "wp-rss-multi-importer", @@ -3600,7 +3734,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/wp-rss-multi-importer", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-Registration508", @@ -3622,18 +3757,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "structured_content_wordpress", "description": "structured_content_wordpress", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -3644,7 +3775,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/structured_content_wordpress", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Salesforce-Reusable-Components", @@ -3661,7 +3793,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-Digital-Innovation", @@ -3678,7 +3811,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GSA-Digital-Innovation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-team-5", @@ -3695,18 +3829,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GSA-team-5", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Hackathon-Team-10", "description": "Hackathon Repo for Team 10", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -3717,7 +3847,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Hackathon-Team-10", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "gsa-digitial-innovation-hackathon", @@ -3739,7 +3870,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/gsa-digitial-innovation-hackathon", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "gsa-hackathon-t4", @@ -3756,7 +3888,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/gsa-hackathon-t4", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "opensource-framework", @@ -3773,7 +3906,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/opensource-framework", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-datagovtheme", @@ -3790,7 +3924,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-datagovtheme", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "custom-permalinks", @@ -3807,7 +3942,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/custom-permalinks", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DigitalGov Search i14y Slate", @@ -3828,7 +3964,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": "https://github.com/GSA/slate", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "PricesPaidGui-AWS", @@ -3845,7 +3982,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "PricesPaidConfig-AWS", @@ -3862,7 +4000,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "PricesPaidAPI-AWS", @@ -3879,7 +4018,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-Acquisition", @@ -3901,7 +4041,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FederalHierarchy-Crosswalk", @@ -3918,7 +4059,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/FederalHierarchy-Crosswalk", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "github-federal-stats", @@ -3935,7 +4077,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/github-federal-stats", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "tsd-agile-cm-manifesto", @@ -3952,7 +4095,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/tsd-agile-cm-manifesto", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "strategicsourcing", @@ -3969,7 +4113,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "vocab.data.gov", @@ -3986,7 +4131,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/vocab.data.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-extlink", @@ -4003,7 +4149,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-extlink", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Salesforce-Communities-Login", @@ -4020,7 +4167,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Salesforce-Communities-Login", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ScopeID Script", @@ -4041,7 +4189,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": "https://github.com/GSA/scopeid-script", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "tsd-agile-sdlc", @@ -4058,7 +4207,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/tsd-agile-sdlc", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "wp-digitalgov-i14y-indexer", @@ -4085,7 +4235,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": "https://github.com/GSA/wp-digitalgov-i14y-indexer", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "fssi-file-processor-gui", @@ -4102,7 +4253,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/fssi-file-processor-gui", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-chef", @@ -4119,7 +4271,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-SBA.gov_7-2015", @@ -4136,7 +4289,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-SBA.gov_7-2015", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "activerecord-validate_unique_child_attribute", @@ -4153,7 +4307,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/activerecord-validate_unique_child_attribute", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-ACQUISITION_INTERACT_CONFIG", @@ -4170,24 +4325,29 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "font-awesome-grunticon-rails", - "description": "Font Awesome icons without web fonts, courtesy of Grunticon", + "name": "Font Awesome Grunticon Rails", + "description": "Font awesome integration for DigitalGov Search", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "GSA" + "GSA", + "DigitalGovSearch", + "icons", + "display" ], "contact": { - "email": "gsa-github.support@gsa.gov" + "email": "dawn.mccleskey@gsa.gov" }, "repositoryURL": "https://github.com/GSA/font-awesome-grunticon-rails", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "tsd-ga-framework", @@ -4204,7 +4364,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/tsd-ga-framework", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-Federal-Crowdsourcing-and-Citizen-Science-Toolkit_8-2015", @@ -4221,7 +4382,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-Federal-Crowdsourcing-and-Citizen-Science-Toolkit_8-2015", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "open311-simple-crm-deploy", @@ -4238,7 +4400,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "wp-sitemap-page", @@ -4255,7 +4418,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/wp-sitemap-page", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sitesusa", @@ -4272,7 +4436,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Search Consumer", @@ -4293,7 +4458,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-ACQUISITION_GATEWAY_STYLEGUIDE", @@ -4310,7 +4476,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-TSA.GOV_9-2015", @@ -4327,7 +4494,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-TSA.GOV_9-2015", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DigitalGov Search Cookbooks", @@ -4347,7 +4515,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-deploy", @@ -4368,7 +4537,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datagov-deploy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ars", @@ -4385,7 +4555,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "metadata-aggregator", @@ -4402,7 +4573,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "federation-registry", @@ -4419,7 +4591,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ficam-metadata-service", @@ -4436,7 +4609,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "catalog-app", @@ -4453,7 +4627,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/catalog-app", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "pycsw", @@ -4475,7 +4650,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/pycsw", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DataCenterMashup", @@ -4492,7 +4668,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/DataCenterMashup", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "gsa-hackathon-2015", @@ -4509,7 +4686,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/gsa-hackathon-2015", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-2015-Fall", @@ -4526,7 +4704,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GSA-2015-Fall", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-Fall-Hackathon-GHG", @@ -4543,7 +4722,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GSA-Fall-Hackathon-GHG", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "gsa-hackathon", @@ -4560,7 +4740,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/gsa-hackathon", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CGI", @@ -4577,7 +4758,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/CGI", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "general-hackathon-administration", @@ -4594,7 +4776,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/general-hackathon-administration", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Ventera-GSAHackathon", @@ -4611,13 +4794,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Ventera-GSAHackathon", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "trip", "description": "Travel Registration Info Portal (GSA 2015 hackathon)", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -4628,7 +4817,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/trip", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "data-center-tool", @@ -4645,7 +4835,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/data-center-tool", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "508ProcurementTool", @@ -4662,7 +4853,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-FTC-IdentityTheft.gov_11-2015", @@ -4679,7 +4871,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-FTC-IdentityTheft.gov_11-2015", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Federal Identity, Credential and Access Management Roadmap", @@ -4703,7 +4896,8 @@ "email": "icam@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ficam-arch", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "pysaml2", @@ -4720,7 +4914,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/pysaml2", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "PyZ3950", @@ -4737,7 +4932,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/PyZ3950", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ficam-broker", @@ -4754,7 +4950,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-cloud-migration", @@ -4771,7 +4968,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "q-and-a", @@ -4793,7 +4991,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/q-and-a", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "wp-no-taxonomy-base", @@ -4810,7 +5009,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/wp-no-taxonomy-base", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Salesforce Government Engagement Org", @@ -4827,7 +5027,8 @@ "email": "mark.vogelgesang@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "cg-manifests", @@ -4844,7 +5045,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/cg-manifests", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA Document Signing Tools", @@ -4862,7 +5064,8 @@ "email": "icam@gsa.gov" }, "repositoryURL": "https://github.com/GSA/gsa-doc-digital-signature", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Salesforce PBS Workspaces Org", @@ -4879,7 +5082,8 @@ "email": "mark.vogelgesang@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Salesforce PBS Client Solutions Org", @@ -4896,7 +5100,8 @@ "email": "mark.vogelgesang@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Salesforce PBS Property Disposal Org", @@ -4913,7 +5118,8 @@ "email": "mark.vogelgesang@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "cg-pipelines", @@ -4930,7 +5136,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/cg-pipelines", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagovATO", @@ -4947,7 +5154,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "open.gsa.gov.github.io", @@ -4964,7 +5172,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/open.gsa.gov.github.io", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "challenge-prize-toolkit", @@ -4981,7 +5190,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ficam-guides", @@ -4998,7 +5208,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ficam-guides", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Federal Public Key Infrastructure (FPKI) Guides", @@ -5024,7 +5235,8 @@ "email": "icam@gsa.gov" }, "repositoryURL": "https://github.com/GSA/fpki-guides", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Federal Personal Identity Verification (PIV) Guides", @@ -5047,7 +5259,8 @@ "email": "icam@gsa.gov" }, "repositoryURL": "https://github.com/GSA/piv-guides", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-Section508", @@ -5069,7 +5282,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-cf-cron", @@ -5086,7 +5300,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datagov-cf-cron", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-bosh", @@ -5103,7 +5318,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datagov-bosh", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-BUYACCESSIBLE-WIZARD", @@ -5120,7 +5336,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-Section508-Training", @@ -5137,7 +5354,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Halls", @@ -5154,13 +5372,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "logsearch-boshrelease", "description": "A BOSH-scalable Elasticsearch+Logstash+Kibana release", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -5171,7 +5395,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/logsearch-boshrelease", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-USCIS.gov_2_2016", @@ -5188,7 +5413,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-USCIS.gov_2_2016", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "p3-tests", @@ -5205,7 +5431,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-Documents", @@ -5222,13 +5449,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "oauth2_proxy", "description": "A reverse proxy that provides authentication with Google, Github or other provider", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -5239,7 +5472,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/oauth2_proxy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "cg-deploy-concourse", @@ -5256,7 +5490,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/cg-deploy-concourse", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSADigitalService", @@ -5273,13 +5508,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GSADigitalService", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FederalProjectSchema", "description": "JSON Schema to Webform Editor being used to ideate on a Draft Federal Project Schema applicable to federally funded investments, research, permits... projects", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -5290,7 +5531,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/FederalProjectSchema", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Acquisition-Gateway-Toolkit", @@ -5307,7 +5549,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "vss", @@ -5324,13 +5567,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "IASHub", "description": "A Jekyll site for the GSA IT IAS team to publish documentation and process guides.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -5341,7 +5590,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/IASHub", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sf-sandbox-post-copy", @@ -5358,7 +5608,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sf-sandbox-post-copy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-Documentation", @@ -5375,7 +5626,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/CAP-Documentation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "nsp-portal", @@ -5392,7 +5644,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-ranchersnapshot", @@ -5409,7 +5662,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "iae-uikit-php", @@ -5426,7 +5680,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/iae-uikit-php", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sf_qa_automation", @@ -5443,7 +5698,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "jkan", @@ -5465,7 +5721,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/jkan", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "community-catalog", @@ -5482,7 +5739,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/community-catalog", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "p3-fileupload", @@ -5499,7 +5757,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "catalog-solr", @@ -5516,7 +5775,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/catalog-solr", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "catalog-fgdc2iso", @@ -5533,7 +5793,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/catalog-fgdc2iso", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "catalog-db", @@ -5550,7 +5811,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/catalog-db", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "catalog-scheduler", @@ -5567,7 +5829,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/catalog-scheduler", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "inventory-solr", @@ -5584,7 +5847,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/inventory-solr", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "catalog-pycsw", @@ -5601,7 +5865,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/catalog-pycsw", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "catalog-nginx", @@ -5618,7 +5883,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/catalog-nginx", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "NAP-Stat", @@ -5640,7 +5906,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/NAP-Stat", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "bwp-external-links", @@ -5657,7 +5924,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/bwp-external-links", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "PBS Sensor", @@ -5676,7 +5944,8 @@ "email": "cto@gsa.gov" }, "repositoryURL": "https://github.com/GSA/pbs-sensor", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "jekyll-centos-deploy", @@ -5693,13 +5962,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/jekyll-centos-deploy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "us-data-federation", "description": "U.S. Data Federation website", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -5710,7 +5985,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/us-data-federation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "governmentwide-classifications", @@ -5727,7 +6003,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/governmentwide-classifications", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Tech at GSA Website", @@ -5745,13 +6022,19 @@ "email": "cto@gsa.gov" }, "repositoryURL": "https://github.com/GSA/cto-website", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "formk8s", "description": "A Terraform plan to create a Kubernetes cluster with Atomic instances", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -5762,13 +6045,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/formk8s", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "angular-toasty", "description": "A simple standalone AngularJS module with extensive features that provides growl-style alerts and messages for your app!", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -5779,7 +6068,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/angular-toasty", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Salesforce Public Engagement Org", @@ -5796,7 +6086,8 @@ "email": "mark.vogelgesang@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "National Reporting Platform for the UN Sustainable Development Goals", @@ -5821,7 +6112,8 @@ "email": "SDGs@omb.eop.gov" }, "repositoryURL": "https://github.com/GSA/sdg-indicators", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "code-gov-pm", @@ -5838,18 +6130,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "api-documentation-template-old", "description": "API documentation template.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/unlicense", - "name": "Unlicense" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -5860,24 +6148,30 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/api-documentation-template-old", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "ficam-federation", - "description": "Information on Federation within the US Federal Government. ", + "name": "Federal ICAM Federation Guide", + "description": "Federation guide for federal agencies; in progress; will replace and update Section 12 of the FICAM Roadmap", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "GSA" - ], - "contact": { - "email": "gsa-github.support@gsa.gov" + "ficam", + "piv", + "federation", + "credentials", + "authentication" + ], + "contact": { + "email": "icam@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ficam-federation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ficam-management", @@ -5894,13 +6188,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ficam-management", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datapusher", "description": "A standalone web service that pushes data files from a CKAN site's resources into its DataStore", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/agpl-3.0", + "name": "AGPL-3.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -5911,7 +6211,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datapusher", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "it-accessibility-playbook", @@ -5928,13 +6229,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/it-accessibility-playbook", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "openstack-ansible-security", "description": "Security Role for OpenStack-Ansible", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -5945,14 +6252,15 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/openstack-ansible-security", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "sam-web-design-standards", - "description": "SAM Web design standards", + "name": "sam-design-system-site", + "description": "SAM design system site", "permissions": { "licenses": null, - "usageType": "governmentWideReuse", + "usageType": "openSource", "exemptionText": null }, "tags": [ @@ -5961,11 +6269,12 @@ "contact": { "email": "gsa-github.support@gsa.gov" }, - "repositoryURL": null, - "laborHours": 0 + "repositoryURL": "https://github.com/GSA/sam-design-system-site", + "laborHours": 0, + "organization": "GSA" }, { - "name": "sam-uikit-js", + "name": "sam-ui-elements", "description": "A JavaScript library for generating US and SAM WDS HTML elements and components.", "permissions": { "licenses": null, @@ -5979,10 +6288,11 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "sam-user-flows", + "name": "sam-styles", "description": "Wireframes and user flows for sam.gov project", "permissions": { "licenses": null, @@ -5996,7 +6306,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "compliance-docs", @@ -6013,7 +6324,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/compliance-docs", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "SPBA", @@ -6030,7 +6342,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "open.gsa.gov Redesign", @@ -6049,7 +6362,8 @@ "email": "cto@gsa.gov" }, "repositoryURL": "https://github.com/GSA/open-gsa-redesign", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "SPBA_QA_Automation", @@ -6066,7 +6380,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Code.gov", @@ -6090,7 +6405,8 @@ "email": "code@gsa.gov" }, "repositoryURL": "https://github.com/GSA/code-gov-web", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "SitesUSA--CMP", @@ -6107,7 +6423,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-wp-boilerplate", @@ -6124,7 +6441,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datagov-wp-boilerplate", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "p3-datavalidator", @@ -6141,7 +6459,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ficam-access", @@ -6158,13 +6477,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ficam-access", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-s3filestore", "description": "Use Amazon S3 as a filestore for CKAN", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/agpl-3.0", + "name": "AGPL-3.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -6175,7 +6500,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-s3filestore", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "graylog-ansible-role", @@ -6192,35 +6518,33 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "ITSN", - "description": "ITSN", + "name": "IT Solutions Navigator", + "description": "The GSA IT Solutions Navigator provides an easy-to-use, web-based portal to simplify and expedite the acquisition of IT for GSA’s government agency customers.", "permissions": { "licenses": null, "usageType": "governmentWideReuse", "exemptionText": null }, "tags": [ - "GSA" + "ITSN", + "Navigator" ], "contact": { - "email": "gsa-github.support@gsa.gov" + "email": "joseph.derosales@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GWAC", "description": "A Governmentwide Acquisition Contract (GWAC) is a pre-competed, multiple-award, indefinite delivery, indefinite quantity (IDIQ) contract that agencies can use to buy total IT solutions.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/gpl-2.0", - "name": "GPL-2.0" - } - ], + "licenses": null, "usageType": "governmentWideReuse", "exemptionText": null }, @@ -6232,7 +6556,8 @@ "email": "benjamin.taylor@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sam-front-end-angular2", @@ -6249,7 +6574,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "agile-contracts", @@ -6266,7 +6592,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ficam-identity", @@ -6283,7 +6610,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ficam-identity", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Acquisition-Gateway-Share", @@ -6300,7 +6628,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sam-architecture-docs", @@ -6317,7 +6646,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sam-governance-docs", @@ -6334,13 +6664,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "lynis", "description": "Lynis - Security auditing tool for Linux, macOS, and UNIX-based systems. Assists with compliance testing (HIPAA/ISO27001/PCI DSS) and system hardening. Agentless and installation is optional.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -6351,13 +6687,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/lynis", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "fail2ban", "description": "Ansible role to set up fail2ban in Debian-like systems", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -6368,7 +6710,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/fail2ban", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Crowdsource-Testing-DHS.gov_9_2016", @@ -6385,7 +6728,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Crowdsource-Testing-DHS.gov_9_2016", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "opengovplan", @@ -6402,7 +6746,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/opengovplan", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-ga-report", @@ -6419,7 +6764,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-ga-report", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Open Source Policy Implementation Guidance - Alpha", @@ -6439,7 +6785,8 @@ "email": "cto@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GSAOpenSourceImplementation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-fulltext", @@ -6456,7 +6803,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-fulltext", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "watchdog-test", @@ -6473,7 +6821,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/watchdog-test", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "code-gov-api", @@ -6496,13 +6845,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/code-gov-api", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sentry", "description": "Sentry is cross-platform crash reporting built with love", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -6513,7 +6868,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sentry", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Test Repository", @@ -6530,7 +6886,8 @@ "email": "mark.vogelgesang@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-cesiumpreview", @@ -6547,7 +6904,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-cesiumpreview", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CorpIT-EARS", @@ -6566,7 +6924,8 @@ "email": "leo.yang@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CodeInventory Metadata Generator", @@ -6584,7 +6943,8 @@ "email": "cto@gsa.gov" }, "repositoryURL": "https://github.com/GSA/codeinventory-metadata-generator", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "VITAP", @@ -6603,7 +6963,8 @@ "email": "scott.marks@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CodeInventory", @@ -6620,7 +6981,8 @@ "email": "jeffrey.fredrickson@gsa.gov" }, "repositoryURL": "https://github.com/GSA/codeinventory", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FEDSIM_root", @@ -6637,7 +6999,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/FEDSIM_root", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ec2-broker", @@ -6654,13 +7017,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ec2-broker", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "elastalert", "description": "Easy & Flexible Alerting With ElasticSearch", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -6671,7 +7040,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/elastalert", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sf-ptt-apply", @@ -6688,7 +7058,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "prototype-city-pairs-api", @@ -6707,7 +7078,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/prototype-city-pairs-api", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "SF-Event-Monitoring-Log-Retrieval", @@ -6724,7 +7096,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/SF-Event-Monitoring-Log-Retrieval", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CodeInventory GitHub", @@ -6741,7 +7114,8 @@ "email": "jeffrey.fredrickson@gsa.gov" }, "repositoryURL": "https://github.com/GSA/codeinventory-github", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "d2d", @@ -6758,7 +7132,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sf-ProjectDashboard", @@ -6775,7 +7150,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sf-ProjectDashboard", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "api-standards", @@ -6793,7 +7169,8 @@ "email": "cto@gsa.gov" }, "repositoryURL": "https://github.com/GSA/api-standards", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sdg-nrp-scripts", @@ -6810,13 +7187,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sdg-nrp-scripts", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-role-repo-webtatic", "description": "Ansible role - Webtatic repository for RHEL/CentOS 6.x.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -6827,7 +7210,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-role-repo-webtatic", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FM-WebApps", @@ -6844,7 +7228,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "apply-org-handoff", @@ -6861,7 +7246,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "api-documentation-template", @@ -6880,7 +7266,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/api-documentation-template", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FM-SharedLibrary", @@ -6897,7 +7284,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FM-VisualCron", @@ -6914,7 +7302,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "prototype-city-pairs-api-documentation", @@ -6934,7 +7323,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/prototype-city-pairs-api-documentation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "icpa_rm", @@ -6951,7 +7341,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Salesforce Employment Engagement Org", @@ -6968,7 +7359,8 @@ "email": "mark.vogelgesang@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "fedramp", @@ -6985,13 +7377,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/fedramp", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-tomcat", "description": "Manage installation of Tomcat", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -7002,7 +7400,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-tomcat", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sfdx_pilot", @@ -7024,24 +7423,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sfdx_pilot", - "laborHours": 0 - }, - { - "name": "CloudFormation-Ansible-provisioner-example", - "description": "CloudFormation-Ansible-provisioner-example", - "permissions": { - "licenses": null, - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "tags": [ - "GSA" - ], - "contact": { - "email": "gsa-github.support@gsa.gov" - }, - "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "som", @@ -7058,7 +7441,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DSSAPIDocumentation", @@ -7075,7 +7459,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/DSSAPIDocumentation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "fedramp-tailored", @@ -7097,7 +7482,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/fedramp-tailored", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GEAR2-NodeJS", @@ -7119,7 +7505,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GEAR2-NodeJS", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "aws-cis-scanner", @@ -7136,7 +7523,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/aws-cis-scanner", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-infrastructure", @@ -7153,25 +7541,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datagov-infrastructure", - "laborHours": 0 - }, - { - "name": "sfdx-pilot", - "description": "Salesforce DX Pilot test repo", - "permissions": { - "licenses": null, - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "tags": [ - "salesforce", - "salesforcedx" - ], - "contact": { - "email": "gsa-github.support@gsa.gov" - }, - "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sitesusa--cloudgov", @@ -7188,7 +7559,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DOTGOVDASH", @@ -7205,11 +7577,12 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "BAT", - "description": "BAT", + "name": "GSA-ART", + "description": "Accessibility Requirement Tool ", "permissions": { "licenses": null, "usageType": "governmentWideReuse", @@ -7222,24 +7595,35 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FM-ULO", "description": "Repository for the ULO application.", "permissions": { - "licenses": null, - "usageType": "governmentWideReuse", + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], + "usageType": "openSource", "exemptionText": null }, "tags": [ - "GSA" + "accounting", + "asp-net-mvc", + "dotnet", + "finance-management", + "gsa" ], "contact": { "email": "gsa-github.support@gsa.gov" }, - "repositoryURL": null, - "laborHours": 0 + "repositoryURL": "https://github.com/GSA/FM-ULO", + "laborHours": 0, + "organization": "GSA" }, { "name": "FM-PegasysWebPortal", @@ -7256,7 +7640,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/FM-PegasysWebPortal", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FM-FMISWebPortal", @@ -7273,7 +7658,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/FM-FMISWebPortal", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "digital.gov", @@ -7290,7 +7676,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/digital.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "sf_ANTbuildfiles", @@ -7307,7 +7694,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/sf_ANTbuildfiles", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ALOHA", @@ -7324,7 +7712,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Project-360", @@ -7341,11 +7730,12 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Project-360", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "Federal Physical Access Control System Guides", - "description": "PACS guidance for Federal agencies on basic knowledge and buying", + "name": "Federal Physical Access Control System Guide", + "description": "PACS guidance for Federal agencies on analyzing risk and procuring solutions", "permissions": { "licenses": null, "usageType": "openSource", @@ -7360,7 +7750,8 @@ "email": "icam@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ficam-pacs", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "dss-api_junk", @@ -7377,7 +7768,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DSS", @@ -7394,7 +7786,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "digitalgov", @@ -7411,7 +7804,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/digitalgov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mysql_to_cloudwatch", @@ -7431,7 +7825,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/mysql_to_cloudwatch", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "laptop-management", @@ -7452,7 +7847,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/laptop-management", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "AI-Assistant-Pilot", @@ -7469,7 +7865,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/AI-Assistant-Pilot", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "apps-gsa-gov", @@ -7486,7 +7883,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/apps-gsa-gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-IDMWP", @@ -7503,7 +7901,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DSS-API", @@ -7520,7 +7919,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "recruiter", @@ -7543,7 +7943,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/recruiter", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CIO.gov", @@ -7560,7 +7961,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/CIO.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "d2d-portal", @@ -7577,7 +7979,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FRPP", @@ -7594,7 +7997,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "D2D-FRPP", @@ -7611,7 +8015,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "cicd_sfdx", @@ -7633,7 +8038,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "jenkins-deploy", @@ -7650,7 +8056,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/jenkins-deploy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "d2d_request_tool", @@ -7667,7 +8074,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "d2d-pbs-odc", @@ -7684,7 +8092,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "BAW", @@ -7701,7 +8110,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "FICAM Scripts", @@ -7724,7 +8134,8 @@ "email": "icam@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "dotgov-home", @@ -7741,7 +8152,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/dotgov-home", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CorpIT-EnterpriseServiceBus", @@ -7758,18 +8170,14 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "gsa.gov", "description": "gsa.gov drupal repository", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/gpl-2.0", - "name": "GPL-2.0" - } - ], + "licenses": null, "usageType": "governmentWideReuse", "exemptionText": null }, @@ -7780,11 +8188,12 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "dotgov-scanning", - "description": "DotGov scanning tools. Mostly orchestrating 18f/domain-scan, which orchestrates other tools.", + "name": "domain-scanning", + "description": "Project to support discovery, scanning, and analysis of the federal internet presence.", "permissions": { "licenses": null, "usageType": "openSource", @@ -7796,8 +8205,9 @@ "contact": { "email": "gsa-github.support@gsa.gov" }, - "repositoryURL": "https://github.com/GSA/dotgov-scanning", - "laborHours": 0 + "repositoryURL": "https://github.com/GSA/domain-scanning", + "laborHours": 0, + "organization": "GSA" }, { "name": "hi", @@ -7814,7 +8224,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/hi", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "icam-fisma", @@ -7831,7 +8242,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/icam-fisma", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "security-benchmarks", @@ -7848,7 +8260,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/security-benchmarks", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ISE-Security-Benchmark-GPOs", @@ -7865,7 +8278,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ISE-Security-Benchmark-GPOs", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "digital-governance-outline", @@ -7882,13 +8296,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/digital-governance-outline", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ckanext-security", "description": "A CKAN extension to hold various security improvements for CKAN", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/agpl-3.0", + "name": "AGPL-3.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -7899,24 +8319,31 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ckanext-security", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "rvm1-ansible", "description": "The official ansible rvm role to install and manage your ruby versions.", "permissions": { - "licenses": null, - "usageType": "openSource", - "exemptionText": null - }, - "tags": [ + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ "GSA" ], "contact": { "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/rvm1-ansible", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "service-design-analytics", @@ -7933,7 +8360,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/service-design-analytics", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Digital-Council", @@ -7950,7 +8378,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Digital-Council", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "jekyll-rebuilder", @@ -7967,7 +8396,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/jekyll-rebuilder", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "d2d-portal-odc", @@ -7984,7 +8414,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "AAS_root", @@ -8001,7 +8432,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/AAS_root", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "PSHC", @@ -8018,7 +8450,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "open.usa.gov", @@ -8035,13 +8468,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/open.usa.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-role-jenkins", "description": "Ansible Role - Jenkins CI", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -8052,7 +8491,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-role-jenkins", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Sandbox_drupal_config_install_via_drush", @@ -8069,7 +8509,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "digital.gov-hugo", @@ -8086,7 +8527,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/digital.gov-hugo", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-microstrategy", @@ -8103,7 +8545,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-microstrategy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "digital.gov-design", @@ -8120,7 +8563,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/digital.gov-design", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "PSHC_Applets", @@ -8137,7 +8581,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/PSHC_Applets", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "BSP_Mode1_CFME", @@ -8154,7 +8599,8 @@ "email": "cloudmgmt@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "OMB-Max-Auth-for-Salesforce", @@ -8171,7 +8617,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/OMB-Max-Auth-for-Salesforce", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "BSP_Mode1_Ansible", @@ -8188,7 +8635,8 @@ "email": "cloudmgmt@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "terriajs-server", @@ -8205,7 +8653,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/terriajs-server", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "code-gov-admintool", @@ -8216,13 +8665,19 @@ "exemptionText": null }, "tags": [ - "GSA" + "code-gov", + "code-gov-admin", + "gov", + "government", + "react", + "us-government" ], "contact": { "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/code-gov-admintool", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA Open Source Implementation Guidance - Alpha", @@ -8242,7 +8697,8 @@ "email": "cto@gsa.gov" }, "repositoryURL": "https://github.com/GSA/open-source-policy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Federal Identity, Credential and Access Management Roadmap", @@ -8266,7 +8722,8 @@ "email": "icam@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GSA-UX-UI-Playbook", @@ -8283,7 +8740,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GSA-UX-UI-Playbook", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "mtanski-test", @@ -8300,7 +8758,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-https-proxy", @@ -8317,7 +8776,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-https-proxy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CIW", @@ -8337,7 +8797,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/CIW", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ficam-scvp-testing", @@ -8357,7 +8818,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ficam-scvp-testing", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "QueryToCSV", @@ -8376,7 +8838,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/QueryToCSV", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Suitability", @@ -8395,7 +8858,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Suitability", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ProcessMSO", @@ -8412,7 +8876,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ProcessPIVCards", @@ -8429,7 +8894,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "PBSImport", @@ -8446,7 +8912,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GCIMS2GAMS", @@ -8463,7 +8930,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Adjudications", @@ -8480,7 +8948,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Adjudications", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "performance.gov", @@ -8497,7 +8966,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CHRISUpdate", @@ -8514,7 +8984,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/CHRISUpdate", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "matter-maker", @@ -8531,7 +9002,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/matter-maker", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GCIMS", @@ -8548,7 +9020,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-os-ubuntu-14", @@ -8565,7 +9038,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-os-ubuntu-14", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "participate-nap4", @@ -8582,10 +9056,11 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/participate-nap4", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "sf_p360", + "name": "sf_git_pilot", "description": "This is a test repository to support SFDX Artifact code for Project-360", "permissions": { "licenses": null, @@ -8599,7 +9074,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "code-gov-admin-backend", @@ -8610,17 +9086,22 @@ "exemptionText": null }, "tags": [ - "GSA" + "code-gov", + "code-gov-admin", + "government", + "open-source", + "us-government" ], "contact": { "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/code-gov-admin-backend", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "innovation.gov", - "description": "The Better Government Program helps create a better relationship between government and the public", + "description": "The Better Government Program helps create a better relationship between government and the public. We are government change agents that discover and understand the right problem, and solve problems right, unlocking barriers to innovation along the way.", "permissions": { "licenses": null, "usageType": "openSource", @@ -8633,7 +9114,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/innovation.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "modernization", @@ -8650,7 +9132,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/modernization", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "digitalgov.gov", @@ -8671,7 +9154,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/digitalgov.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "front-matter-editor", @@ -8688,7 +9172,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/front-matter-editor", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "frntmttr", @@ -8705,7 +9190,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/frntmttr", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "devsecops-example", @@ -8722,7 +9208,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/devsecops-example", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "training-pathway-data-practitioner", @@ -8739,7 +9226,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/training-pathway-data-practitioner", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "challenge.gov", @@ -8756,7 +9244,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "gsa-icam-card-builder", @@ -8773,7 +9262,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/gsa-icam-card-builder", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-os-rhel-7", @@ -8790,7 +9280,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-os-rhel-7", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CorpIT-GSAResp", @@ -8807,7 +9298,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/CorpIT-GSAResp", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-infrastructure-modules", @@ -8824,7 +9316,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datagov-infrastructure-modules", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-infrastructure-live", @@ -8841,7 +9334,26 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/datagov-infrastructure-live", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" + }, + { + "name": "code-gov-gitsecretpatterns", + "description": "Git Secret Patterns", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "GSA" + ], + "contact": { + "email": "gsa-github.support@gsa.gov" + }, + "repositoryURL": "https://github.com/GSA/code-gov-gitsecretpatterns", + "laborHours": 0, + "organization": "GSA" }, { "name": "usagov-api", @@ -8858,7 +9370,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/usagov-api", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "usagov-hub", @@ -8875,7 +9388,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/usagov-hub", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "usagov-spoke", @@ -8892,7 +9406,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/usagov-spoke", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "plainlanguage.gov", @@ -8909,7 +9424,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/plainlanguage.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-incident-response", @@ -8926,7 +9442,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DevSecOps", @@ -8945,7 +9462,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/DevSecOps", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CorpIT-CloudSandbox", @@ -8962,7 +9480,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/CorpIT-CloudSandbox", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "eBuy-Express", @@ -8979,7 +9498,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "fpkilint", @@ -9003,7 +9523,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/fpkilint", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CorpIT-ChildCare", @@ -9020,7 +9541,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CorpIT-DrupalCustomization", @@ -9037,7 +9559,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DevSecOps-Mgmt-Tools-Deploy", @@ -9054,7 +9577,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/DevSecOps-Mgmt-Tools-Deploy", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ice-cream", @@ -9071,7 +9595,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ice-cream", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ActivitiClasses", @@ -9088,7 +9613,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "opp-code-gov-web", @@ -9105,7 +9631,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/opp-code-gov-web", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "RobotsTagParser", @@ -9126,24 +9653,8 @@ "email": "search@support.digitalgov.gov" }, "repositoryURL": "https://github.com/GSA/robots_tag_parser", - "laborHours": 0 - }, - { - "name": "datagov-docs", - "description": "[WORK IN PROGRESS] Data.gov Documentation", - "permissions": { - "licenses": null, - "usageType": "openSource", - "exemptionText": null - }, - "tags": [ - "GSA" - ], - "contact": { - "email": "gsa-github.support@gsa.gov" - }, - "repositoryURL": "https://github.com/GSA/datagov-docs", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "DSS-Callback-Processing", @@ -9160,13 +9671,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-role-kibana", "description": "Ansible Role - Kibana", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -9177,7 +9694,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-role-kibana", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "eBuyApi", @@ -9194,7 +9712,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-role-nessus-agent", @@ -9211,7 +9730,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-role-nessus-agent", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-os-rhel-6", @@ -9228,7 +9748,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-os-rhel-6", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "code-gov-harvester", @@ -9252,7 +9773,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/code-gov-harvester", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ficam-scripts-public", @@ -9269,11 +9791,12 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ficam-scripts-public", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "devsecops-cloud-custodian-rules", - "description": "A repo containing rule sets for cloud-custodian inside GSA AWS accounts. This repo does not contain cloud-custodian itself.", + "description": "[WORK IN PROGRESS] A repo containing rule sets for cloud-custodian inside GSA AWS accounts. This repo does not contain cloud-custodian itself.", "permissions": { "licenses": null, "usageType": "openSource", @@ -9286,7 +9809,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/devsecops-cloud-custodian-rules", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "jz-example", @@ -9303,7 +9827,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/jz-example", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "opp-example", @@ -9320,7 +9845,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/opp-example", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "devsecops-ekk-stack", @@ -9337,7 +9863,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/devsecops-ekk-stack", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "digitalgov-chrome", @@ -9354,7 +9881,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/digitalgov-chrome", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "Canada-USA-Digital-Collaboration", @@ -9371,7 +9899,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/Canada-USA-Digital-Collaboration", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "feedback.usa.gov", @@ -9388,7 +9917,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/feedback.usa.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "opp-federalist", @@ -9405,7 +9935,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/opp-federalist", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "go.usa.gov", @@ -9422,7 +9953,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/go.usa.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "consumer_complaint_letter", @@ -9439,7 +9971,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/consumer_complaint_letter", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "voc_admin", @@ -9456,7 +9989,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/voc_admin", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "voc_public", @@ -9473,7 +10007,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/voc_public", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "emerging-technology-atlas", @@ -9490,11 +10025,12 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/emerging-technology-atlas", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "fedramp-website", - "description": "fedramp-website", + "name": "legacy-fedramp-website", + "description": "legacy-fedramp-website", "permissions": { "licenses": null, "usageType": "openSource", @@ -9506,8 +10042,9 @@ "contact": { "email": "gsa-github.support@gsa.gov" }, - "repositoryURL": "https://github.com/GSA/fedramp-website", - "laborHours": 0 + "repositoryURL": "https://github.com/GSA/legacy-fedramp-website", + "laborHours": 0, + "organization": "GSA" }, { "name": "plainlanguage-requests", @@ -9524,14 +10061,15 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "code-gov-data", "description": "Our temporary document store", "permissions": { "licenses": null, - "usageType": "governmentWideReuse", + "usageType": "openSource", "exemptionText": null }, "tags": [ @@ -9540,8 +10078,9 @@ "contact": { "email": "gsa-github.support@gsa.gov" }, - "repositoryURL": null, - "laborHours": 0 + "repositoryURL": "https://github.com/GSA/code-gov-data", + "laborHours": 0, + "organization": "GSA" }, { "name": "devsecops-jenkins", @@ -9558,7 +10097,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/devsecops-jenkins", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "public-participation", @@ -9580,14 +10120,15 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/public-participation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-jenkins", "description": "datagov jenkins sandbox", "permissions": { "licenses": null, - "usageType": "openSource", + "usageType": "governmentWideReuse", "exemptionText": null }, "tags": [ @@ -9596,8 +10137,9 @@ "contact": { "email": "gsa-github.support@gsa.gov" }, - "repositoryURL": "https://github.com/GSA/datagov-jenkins", - "laborHours": 0 + "repositoryURL": null, + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-os-ubuntu-16", @@ -9614,7 +10156,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-os-ubuntu-16", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "newperformancedotgov1", @@ -9631,11 +10174,12 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/newperformancedotgov1", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "citizenscience.gov", - "description": "This is the new build of CitizenScience.gov using Jekyll on Federalist. It is a work in progress, feel free to contribute or submit an issue!", + "description": "This is the new build of CitizenScience.gov using Jekyll on Federalist. Feel free to contribute or submit an issue!", "permissions": { "licenses": null, "usageType": "openSource", @@ -9650,7 +10194,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/citizenscience.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "trustymail", @@ -9667,7 +10212,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/trustymail", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "code-central", @@ -9684,13 +10230,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/code-central", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "terraform-role", "description": "Ansible role to install Terraform", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -9701,7 +10253,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/terraform-role", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "dcoisandbox", @@ -9718,7 +10271,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "facacode", @@ -9735,7 +10289,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "GEAR-Documentation", @@ -9752,7 +10307,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/GEAR-Documentation", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "terraform-aws-vpc", @@ -9769,7 +10325,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/terraform-aws-vpc", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "devsecops-example-prod", @@ -9786,13 +10343,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/devsecops-example-prod", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "streamalert", "description": "StreamAlert is a serverless, realtime data analysis framework which empowers you to ingest, analyze, and alert on data from any environment, using datasources and alerting logic you define.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -9803,7 +10366,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/streamalert", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "platform.gsa.gov", @@ -9820,7 +10384,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/platform.gsa.gov", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "piv-conformance", @@ -9837,7 +10402,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/piv-conformance", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "methods", @@ -9854,7 +10420,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/methods", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "terraform-vpc-flow-log", @@ -9871,7 +10438,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/terraform-vpc-flow-log", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "datagov-account-management", @@ -9888,7 +10456,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "api.data.gov-design", @@ -9905,7 +10474,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/api.data.gov-design", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "inactive-logout", @@ -9927,11 +10497,12 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/inactive-logout", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "devsecops-fleet", - "description": "Kolider/fleet implementation for GSA DevSecOps", + "description": "Kolide Fleet implementation for GSA DevSecOps", "permissions": { "licenses": null, "usageType": "openSource", @@ -9944,7 +10515,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/devsecops-fleet", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-role-kolide-fleet", @@ -9961,7 +10533,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-role-kolide-fleet", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "AdvantageHDEmailTool", @@ -9983,13 +10556,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "terraform", "description": "Terraform is a tool for building, changing, and combining infrastructure safely and efficiently.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mpl-2.0", + "name": "MPL-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -10000,7 +10579,8 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/terraform", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "CAP-ACQUISITION_GATEWAY_EVENT_DOCS", @@ -10017,11 +10597,12 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": null, - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "10x", - "description": "10x", + "description": "Website for the Office of Investments in GSA’s Technology Transformation Service", "permissions": { "licenses": null, "usageType": "openSource", @@ -10034,13 +10615,19 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/10x", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { "name": "ansible-osquery", "description": "Ansible osquery role", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -10051,70 +10638,3137 @@ "email": "gsa-github.support@gsa.gov" }, "repositoryURL": "https://github.com/GSA/ansible-osquery", - "laborHours": 0 + "laborHours": 0, + "organization": "GSA" }, { - "name": "api.data.gov", - "description": "A hosted, shared-service that provides an API key, analytics, and proxy solution for government web services.", + "name": "CorpIT-ESB-CIS", + "description": "Project-level repository for the Common Integration Service 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"openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/fbopen-python", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "myra", + "description": "Landing pages to promote the Treasury's new myRA initiative.", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/myra", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "sqlalchemy-jsonapi", + "description": "JSONAPI implementation for use with SQLAlchemy", + "permissions": { + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/sqlalchemy-jsonapi", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "GoT", + "description": "GoT", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/GoT", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "pyfpds", + "description": "pyfpds is a python wrapper around the FPDS ATOM feed", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/pyfpds", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "fec-graph-search", + "description": "DEPRECATED ", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/fec-graph-search", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "playbook", + "description": "The U.S. Digital Services Playbook", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/playbook", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "https", + "description": "(DEPRECATED) 18F team HTTPS ops documentation.", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/https", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "aaa-exp-proto1", + "description": "This is an experimental repository to prototype some Ajax and GUI ideas", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/aaa-exp-proto1", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "FAB", + "description": "FAB is the FBOpen A/B test project", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/FAB", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "dashboard", + "description": "DEPRECATED: A site to track our projects' status and much, much more...", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/dashboard", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "consulting", + "description": "18F Consulting", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/consulting", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "microsite-template-18f", + "description": "This is our first template site used to replicate micro sites.", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/microsite-template-18f", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "microsite-18f", + "description": "This is an attempt to automatically create very, very small gh-pages sites on github.", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/microsite-18f", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "mock-pay", + "description": "A mock version of pay.gov for rapid testing", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "unmaintained" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/mock-pay", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "18f-bot", + "description": "18F's Slack bot, Charlie. Based on Hubot.", "permissions": { "licenses": null, "usageType": "openSource", @@ -10126,13 +13780,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/MorrisDataDecorator", + "repositoryURL": "https://github.com/18F/18f-bot", "laborHours": 0, "organization": "18F" }, { - "name": "fbopen", - "description": "[DEPRECATED] An open API server, data import tools, and sample apps to help small businesses search for opportunities to work with the U.S. government.", + "name": "hackathontrainingday", + "description": "The 18F Women in Tech & Data Hackathon + Training Day November 7, 2014", "permissions": { "licenses": null, "usageType": "openSource", @@ -10144,13 +13798,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fbopen", + "repositoryURL": "https://github.com/18F/hackathontrainingday", "laborHours": 0, "organization": "18F" }, { - "name": "fbopen-widget", - "description": "Generates a JavaScript snippet for searching FBOpen", + "name": "how-to-work-with-18f", + "description": "This is a repository for Aaron", "permissions": { "licenses": null, "usageType": "openSource", @@ -10162,13 +13816,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fbopen-widget", + "repositoryURL": "https://github.com/18F/how-to-work-with-18f", "laborHours": 0, "organization": "18F" }, { - "name": "xavier", - "description": "[DEPRECATED] (Visit https://github.com/18f/myusa) Original description: MyUSA - reimagine how citizens interact with government through an experience designed around their needs rather than a confusing and fragmented bureaucracy.", + "name": "Sendak", + "description": "[DEPRECATED] Sendak integrates user, project, and deployment management for 18F", "permissions": { "licenses": null, "usageType": "openSource", @@ -10180,13 +13834,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/xavier", + "repositoryURL": "https://github.com/18F/Sendak", "laborHours": 0, "organization": "18F" }, { - "name": "PriceHistoryGUI", - "description": "GUI for the PricesPaid market research", + "name": "shipper", + "description": "Continuous deployment made easy and secure", "permissions": { "licenses": null, "usageType": "openSource", @@ -10198,13 +13852,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/PriceHistoryGUI", + "repositoryURL": "https://github.com/18F/shipper", "laborHours": 0, "organization": "18F" }, { - "name": "PriceHistoryAuth", - "description": "Simple Authentication module used by PricesPaidGUI and PricesPaidAPI", + "name": "gsa_auctions_gem", + "description": "Ruby access to the GSA Auctions API", "permissions": { "licenses": null, "usageType": "openSource", @@ -10216,13 +13870,37 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/PriceHistoryAuth", + "repositoryURL": "https://github.com/18F/gsa_auctions_gem", "laborHours": 0, "organization": "18F" }, { - "name": "MicroP3ApiUser", - "description": "Very simple code to demonstrate how to use the PricesPaidAPI (P3)", + "name": "frontend", + "description": "18F's Front End Guild", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18f", + "css", + "frontend", + "guide", + "guild", + "html", + "javascript" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/frontend", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "inclusive-design-guide", + "description": "18F guide for building inclusive and accessible digital products.", "permissions": { "licenses": null, "usageType": "openSource", @@ -10234,13 +13912,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/MicroP3ApiUser", + "repositoryURL": "https://github.com/18F/inclusive-design-guide", "laborHours": 0, "organization": "18F" }, { - "name": "pif-interest", - "description": "Get more information when next PIF round is announced.", + "name": "open-opportunities-theme", + "description": "Federal-wide Open Opportunities - on the openopps-platform", + "permissions": { + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/open-opportunities-theme", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "starter-ui", + "description": "A compilation of assets to jump start a new web UI project with 18F branding.", "permissions": { "licenses": null, "usageType": "openSource", @@ -10252,13 +13953,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pif-interest", + "repositoryURL": "https://github.com/18F/starter-ui", "laborHours": 0, "organization": "18F" }, { - "name": "API-Usability-Testing", - "description": "The unofficial website for the API Usability Testing project, which can help agencies collect real customer feedback to reduce errors, simplify work flow, and increase adoption of their APIs.", + "name": "bulk-storage", + "description": "File hosting as a service.", "permissions": { "licenses": null, "usageType": "openSource", @@ -10270,13 +13971,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/API-Usability-Testing", + "repositoryURL": "https://github.com/18F/bulk-storage", "laborHours": 0, "organization": "18F" }, { - "name": "pif-app", - "description": "2014 PIF Application", + "name": "openFEC-web-app", + "description": "DEPRECATED See https://github.com/18F/fec-cms for fec.gov's code", "permissions": { "licenses": null, "usageType": "openSource", @@ -10288,13 +13989,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pif-app", + "repositoryURL": "https://github.com/18F/openFEC-web-app", "laborHours": 0, "organization": "18F" }, { - "name": "ifgovthenthat", - "description": "If Gov Then That website, a project to promote gov open data by designing clever uses for government APIs. (Currently on hold.)", + "name": "shipper-cookbook", + "description": "A Chef cookbook to install and create configs for Shipper", "permissions": { "licenses": null, "usageType": "openSource", @@ -10306,33 +14007,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ifgovthenthat", + "repositoryURL": "https://github.com/18F/shipper-cookbook", "laborHours": 0, "organization": "18F" }, { - "name": "18f.gsa.gov", - "description": "This repository contains 18F's website.", + "name": "pif3-oct-apprentice", + "description": "This is a repository for Rob", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "federalist", - "us-federal-government", - "website" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/18f.gsa.gov", + "repositoryURL": "https://github.com/18F/pif3-oct-apprentice", "laborHours": 0, "organization": "18F" }, { - "name": "18f.github.io", - "description": "DEPRECATED: List of 18F's open source projects", + "name": "pif3-oct-whibrary", + "description": "This is a repository for Rob", "permissions": { "licenses": null, "usageType": "openSource", @@ -10344,13 +14043,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/18f.github.io", + "repositoryURL": "https://github.com/18F/pif3-oct-whibrary", "laborHours": 0, "organization": "18F" }, { - "name": "brutus", - "description": "DEPRECATED - Doing heavy lifting in the land of government hiring.", + "name": "code-of-conduct", + "description": "18F's code of conduct.", "permissions": { "licenses": null, "usageType": "openSource", @@ -10362,13 +14061,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/brutus", + "repositoryURL": "https://github.com/18F/code-of-conduct", "laborHours": 0, "organization": "18F" }, { - "name": "Mario", - "description": "DEPRECATED: Initial repo for some shared thoughts around a shopping cart idea.", + "name": "mirage-cookbook", + "description": "A chef cookbook to install and setup the Mirage market research tool", "permissions": { "licenses": null, "usageType": "openSource", @@ -10380,13 +14079,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/Mario", + "repositoryURL": "https://github.com/18F/mirage-cookbook", "laborHours": 0, "organization": "18F" }, { - "name": "afsmallbiz", - "description": "Central point for all 18F Air Force Small Business projects", + "name": "peacecorps-placeholder-images", + "description": "peacecorps-placeholder-images", "permissions": { "licenses": null, "usageType": "openSource", @@ -10398,13 +14097,108 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/afsmallbiz", + "repositoryURL": "https://github.com/18F/peacecorps-placeholder-images", "laborHours": 0, "organization": "18F" }, { - "name": "API-All-the-X", - "description": "Resources and Materials for the /Developer Program", + "name": "up", + "description": "Up is a simple utility to encrypt secrets and upload them to a specified S3 bucket, all in a shell script!", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/up", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "rdbms-subsetter", + "description": "Generates a subset of a relational database that respects foreign key constraints", + "permissions": { + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/rdbms-subsetter", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "sendak-usage", + "description": "A command-line parser/usage generator wrapping minimist", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/sendak-usage", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "analytics-proxy", + "description": "Experimental proxy to make GA data public. ", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/analytics-proxy", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "myusa-cookbook", + "description": "Chef cookbook to install and configure MyUSA", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/myusa-cookbook", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "18fconsulting-proto-3", + "description": "An 18F Consulting Protosketch", "permissions": { "licenses": null, "usageType": "openSource", @@ -10416,13 +14210,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/API-All-the-X", + "repositoryURL": "https://github.com/18F/18fconsulting-proto-3", "laborHours": 0, "organization": "18F" }, { - "name": "api-standards", - "description": "API Standards for 18F", + "name": "api-playground", + "description": "A playground repo for APIs", "permissions": { "licenses": null, "usageType": "openSource", @@ -10434,13 +14228,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/api-standards", + "repositoryURL": "https://github.com/18F/api-playground", "laborHours": 0, "organization": "18F" }, { - "name": "PIF-logo-v2", - "description": "Presidential Innovation Fellows logo", + "name": "calc", + "description": "An estimator for hourly rates on professional services contracts", "permissions": { "licenses": null, "usageType": "openSource", @@ -10452,13 +14246,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/PIF-logo-v2", + "repositoryURL": "https://github.com/18F/calc", "laborHours": 0, "organization": "18F" }, { - "name": "sbhub", - "description": "(Inactive) The Air Force Research Laboratory's Small Business Hub", + "name": "email-to-github-issues", + "description": "(INACTIVE) A Mandrill Inbound email webhook that opens GitHub issues. Great for approving HTTPS certificates.", "permissions": { "licenses": null, "usageType": "openSource", @@ -10470,13 +14264,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sbhub", + "repositoryURL": "https://github.com/18F/email-to-github-issues", "laborHours": 0, "organization": "18F" }, { - "name": "gsa-advantage-scrape", - "description": "A quick script to scrape a saved cart in GSA Advantage", + "name": "data-public", + "description": "DEPRECATED: All 18F team data is now stored in 18F/data-private", "permissions": { "licenses": null, "usageType": "openSource", @@ -10488,13 +14282,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/gsa-advantage-scrape", + "repositoryURL": "https://github.com/18F/data-public", "laborHours": 0, "organization": "18F" }, { - "name": "scrapebox", - "description": "A simple, system independent infrastructure for performing web scraping. Utilizes Vagrant virtualbox interface and puppet provisioning to create and execute scraping of web content to structured data quickly and easily without modifying your core system.", + "name": "ckanext-geodatagov", + "description": "data.gov extension", "permissions": { "licenses": null, "usageType": "openSource", @@ -10506,13 +14300,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/scrapebox", + "repositoryURL": "https://github.com/18F/ckanext-geodatagov", "laborHours": 0, "organization": "18F" }, { - "name": "C2", - "description": "an approval process automation tool", + "name": "ckanext-spatial", + "description": "Geospatial extension for CKAN", "permissions": { "licenses": null, "usageType": "openSource", @@ -10524,13 +14318,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/C2", + "repositoryURL": "https://github.com/18F/ckanext-spatial", "laborHours": 0, "organization": "18F" }, { - "name": "RandomizeBasedOnZipcodeFromIPAddress", - "description": "Randomize into cohorts based on zip code as found by geolocation of IP address w/ freegeoip to aid in JS for experimentation", + "name": "ckanext-formats", + "description": "Formats Plugin for CKAN", "permissions": { "licenses": null, "usageType": "openSource", @@ -10542,31 +14336,32 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/RandomizeBasedOnZipcodeFromIPAddress", + "repositoryURL": "https://github.com/18F/ckanext-formats", "laborHours": 0, "organization": "18F" }, { - "name": "afsbirez", - "description": "(Inactive) The SBIR-EZ project, whose goal is to simplify the process of participating in the Small Business Innovation Research Program", + "name": "analytics-reporter", + "description": "Lightweight analytics reporting and publishing tool for Google Analytics data. Powers https://analytics.usa.gov, http://analytics.phila.gov, http://analytics.cityofsacramento.org, and more.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "analytics", + "google-analytics" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/afsbirez", + "repositoryURL": "https://github.com/18F/analytics-reporter", "laborHours": 0, "organization": "18F" }, { - "name": "beckley", - "description": "A search index and API server for anyone requiring basic, fast search of highly curated content.", + "name": "domain-scan", + "description": "A lightweight pipeline, locally or in Lambda, for scanning things like HTTPS, third party service use, and web accessibility.", "permissions": { "licenses": null, "usageType": "openSource", @@ -10578,13 +14373,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/beckley", + "repositoryURL": "https://github.com/18F/domain-scan", "laborHours": 0, "organization": "18F" }, { - "name": "open-source-program", - "description": "Artifacts an organization can use to bootstrap an open source program. (Policy is in open-source-policy repo.)", + "name": "flakes-flask", + "description": "A starter Flask app that uses the Flakes front-end framework", "permissions": { "licenses": null, "usageType": "openSource", @@ -10596,13 +14391,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/open-source-program", + "repositoryURL": "https://github.com/18F/flakes-flask", "laborHours": 0, "organization": "18F" }, { - "name": "PriceHistoryInstall", - "description": "This is the installation materials for the PriceHistory project, which consists of several repos.", + "name": "usps-proxy", + "description": "A thin layer between your users and the USPS API", "permissions": { "licenses": null, "usageType": "openSource", @@ -10614,13 +14409,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/PriceHistoryInstall", + "repositoryURL": "https://github.com/18F/usps-proxy", "laborHours": 0, "organization": "18F" }, { - "name": "myusa", - "description": "MyUSA was a single sign-on project for government, now deprecated. (More info: https://18f.gsa.gov/2015/05/18/myusa/)", + "name": "hub", + "description": "DEPRECATED: Documentation hub for the 18F team", "permissions": { "licenses": null, "usageType": "openSource", @@ -10632,13 +14427,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/myusa", + "repositoryURL": "https://github.com/18F/hub", "laborHours": 0, "organization": "18F" }, { - "name": "Digital_Coworking", - "description": "(On Hold) Notes on the 18F-hosted Co-Working Sessions", + "name": "midas-cookbook", + "description": "Chef cookbook for provisioning Midas", "permissions": { "licenses": null, "usageType": "openSource", @@ -10650,13 +14445,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/Digital_Coworking", + "repositoryURL": "https://github.com/18F/midas-cookbook", "laborHours": 0, "organization": "18F" }, { - "name": "notalone", - "description": "Information about how to respond to and prevent sexual assault on college and university campuses.", + "name": "ubuntu-lts", + "description": "Ubuntu 14.04 LTS is FISMA Ready.", "permissions": { "licenses": null, "usageType": "openSource", @@ -10668,13 +14463,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/notalone", + "repositoryURL": "https://github.com/18F/ubuntu-lts", "laborHours": 0, "organization": "18F" }, { - "name": "bronto-api", - "description": "API for bronto thesaurus", + "name": "hourofcode", + "description": "[RETIRED] No longer active site; codebase is still available. GitHub repo and issue list is used for trainings.", "permissions": { "licenses": null, "usageType": "openSource", @@ -10686,13 +14481,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bronto-api", + "repositoryURL": "https://github.com/18F/hourofcode", "laborHours": 0, "organization": "18F" }, { - "name": "open-source-policy", - "description": "This repository contains the official Open Source Policy of 18F", + "name": "data-validator", + "description": "Validates YAML data against a schema", "permissions": { "licenses": null, "usageType": "openSource", @@ -10704,13 +14499,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/open-source-policy", + "repositoryURL": "https://github.com/18F/data-validator", "laborHours": 0, "organization": "18F" }, { - "name": "scratch", - "description": "A scratchpad for miscellaneous files", + "name": "hash-joiner", + "description": "Pruning/promotion of properties, deep merges, and joins for Ruby Hash objects", "permissions": { "licenses": null, "usageType": "openSource", @@ -10722,18 +14517,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/scratch", + "repositoryURL": "https://github.com/18F/hash-joiner", "laborHours": 0, "organization": "18F" }, { - "name": "github-in-government", - "description": "A sandbox for opensource demonstrations of GitHub", + "name": "sails-postgresql", + "description": "PostgreSQL adapter for Sails.js", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" } ], "usageType": "openSource", @@ -10745,68 +14540,76 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/github-in-government", + "repositoryURL": "https://github.com/18F/sails-postgresql", "laborHours": 0, "organization": "18F" }, { - "name": "2015-foia", - "description": "Please check out https://github.com/18F/foia-hub/issues to track our work. This repo is for project wide discussion, blogging, and scratch space for 18F's FOIA modernization team. ", + "name": "usps-api-notes", + "description": "A collection of notes taken about the USPS APIs", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "foia", - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/2015-foia", + "repositoryURL": "https://github.com/18F/usps-api-notes", "laborHours": 0, "organization": "18F" }, { - "name": "bronto", - "description": "Meet bronto, a BEAST of a thesaurus.", + "name": "django-elasticache", + "description": "pylibmc based client for Amazon ElastiCache with auto discovery function", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bronto", + "repositoryURL": "https://github.com/18F/django-elasticache", "laborHours": 0, "organization": "18F" }, { - "name": "codetalker", - "description": "API for procurement-related code conversions and discovery", + "name": "analytics.usa.gov", + "description": "The US federal government's web traffic.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "analytics", + "analytics-dashboard", + "dap", + "statistics", + "traffic" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/codetalker", + "repositoryURL": "https://github.com/18F/analytics.usa.gov", "laborHours": 0, "organization": "18F" }, { - "name": "dodsbir-scrape", - "description": "DEPRECATED: A scraper for the SBIR topics housed on dodsbir.net", + "name": "docker-fugacious", + "description": "Easily deploy Fugacious backed with Postgres via Docker and FIg.", "permissions": { "licenses": null, "usageType": "openSource", @@ -10818,13 +14621,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dodsbir-scrape", + "repositoryURL": "https://github.com/18F/docker-fugacious", "laborHours": 0, "organization": "18F" }, { - "name": "g-analytics", - "description": "Projects of the 18F Analytics Guild. For the 18F analytics standards, visit", + "name": "weekly_snippets", + "description": "Standardization, munging, redaction, and publishing of weekly snippets", "permissions": { "licenses": null, "usageType": "openSource", @@ -10836,13 +14639,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/g-analytics", + "repositoryURL": "https://github.com/18F/weekly_snippets", "laborHours": 0, "organization": "18F" }, { - "name": "fbopen-docs", - "description": "[DEPRECATED] staging our redesign of the fbopen docs", + "name": "before-you-ship", + "description": "requirements for shipping products in TTS", "permissions": { "licenses": null, "usageType": "openSource", @@ -10854,13 +14657,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fbopen-docs", + "repositoryURL": "https://github.com/18F/before-you-ship", "laborHours": 0, "organization": "18F" }, { - "name": "design", - "description": "General 18F design issues, discussion, and shared resources/artifacts", + "name": "ckanext-datajson", + "description": "A CKAN extension for /data pages in Project Open Data implementation", "permissions": { "licenses": null, "usageType": "openSource", @@ -10872,15 +14675,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/design", + "repositoryURL": "https://github.com/18F/ckanext-datajson", "laborHours": 0, "organization": "18F" }, { - "name": "cookbooks", - "description": "Chef cookbooks used for deployment of 18F stuff on AWS opsworks", + "name": "dashboards-on-demand", + "description": "A proposal for various live dashboards (not affiliated with the 18F Dashboard project)", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -10890,13 +14698,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cookbooks", + "repositoryURL": "https://github.com/18F/dashboards-on-demand", "laborHours": 0, "organization": "18F" }, { - "name": "rectangle", - "description": "Team Rectangle!", + "name": "team_hub", + "description": "Components for creating a team Hub using Jekyll", "permissions": { "licenses": null, "usageType": "openSource", @@ -10908,70 +14716,67 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/rectangle", + "repositoryURL": "https://github.com/18F/team_hub", "laborHours": 0, "organization": "18F" }, { - "name": "2015-foia-design", - "description": "(RETIRED) Initial mocks for a FOIA hub.", + "name": "test_temp_file_helper", + "description": "Generates and cleans up temp files for automated tests", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "foia", - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/2015-foia-design", + "repositoryURL": "https://github.com/18F/test_temp_file_helper", "laborHours": 0, "organization": "18F" }, { - "name": "2015-foia-hub", - "description": "A consolidated FOIA request hub.", + "name": "sendak-touch", + "description": "A reference project for Sendak - touches a file.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "foia", - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/2015-foia-hub", + "repositoryURL": "https://github.com/18F/sendak-touch", "laborHours": 0, "organization": "18F" }, { - "name": "2015-foia-search", - "description": "A search/similarity/discovery API over information from FOIA responses.", + "name": "jekyll_pages_api", + "description": "a Jekyll Plugin that generates a JSON file with data for all the Pages in your Site", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "foia", - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/2015-foia-search", + "repositoryURL": "https://github.com/18F/jekyll_pages_api", "laborHours": 0, "organization": "18F" }, { - "name": "javascript-lessons", - "description": "Beginning and Advanced lessons in javascript with a focus on functional programming. This repo contains both exercises and solutions. It is used by 18F to train its internal staff, but of course anyone is welcome to use it and possibly contribute.", + "name": "openFEC-documentation", + "description": "Documentation to support upcoming data platform API and data sets", "permissions": { "licenses": null, "usageType": "openSource", @@ -10983,70 +14788,70 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/javascript-lessons", + "repositoryURL": "https://github.com/18F/openFEC-documentation", "laborHours": 0, "organization": "18F" }, { - "name": "docker-es", - "description": "ElasticSearch in a Docker container", + "name": "automated-testing-playbook", + "description": "A set of principles, practices, idioms, and strategies pertaining to automated software testing and its adoption", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "playbook", + "testing" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/docker-es", + "repositoryURL": "https://github.com/18F/automated-testing-playbook", "laborHours": 0, "organization": "18F" }, { - "name": "doi-extractives-data", - "description": "Information on the extractive industries in the U.S. from federal data.", + "name": "cg-site", + "description": "The cloud.gov site", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "data-visualization", - "extractive-industries", - "government-data", - "natural-resources" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/doi-extractives-data", + "repositoryURL": "https://github.com/18F/cg-site", "laborHours": 0, "organization": "18F" }, { - "name": "parse-shopping-list", - "description": "Just jamming' --- some exploration of parsing emails representing shopping lists", + "name": "accessibility", + "description": "A repo to organize the guidelines and best practices for accessibility at 18f.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "a11y", + "accessibility", + "best-practices" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/parse-shopping-list", + "repositoryURL": "https://github.com/18F/accessibility", "laborHours": 0, "organization": "18F" }, { - "name": "conway-game-of-life-js", - "description": "conway-game-of-life-js", + "name": "tock", + "description": "We use Tock to track and report our time at 18F", "permissions": { "licenses": null, "usageType": "openSource", @@ -11058,13 +14863,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/conway-game-of-life-js", + "repositoryURL": "https://github.com/18F/tock", "laborHours": 0, "organization": "18F" }, { - "name": "discovery", - "description": "ARCHIVED: Discovery is a market research tool for the OASIS procurement vehicle. ", + "name": "grouplet-playbook", + "description": "A handbook for those wishing to recruit a self-organizing volunteer group to address organizational needs", "permissions": { "licenses": null, "usageType": "openSource", @@ -11076,13 +14881,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/discovery", + "repositoryURL": "https://github.com/18F/grouplet-playbook", "laborHours": 0, "organization": "18F" }, { - "name": "FEC", - "description": "A general discussion forum for FEC.gov. This is the best place to submit general feedback.", + "name": "ficam-openid", + "description": "A FICAM profile for OpenID", "permissions": { "licenses": null, "usageType": "openSource", @@ -11094,13 +14899,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/FEC", + "repositoryURL": "https://github.com/18F/ficam-openid", "laborHours": 0, "organization": "18F" }, { - "name": "answers-ruby-client", - "description": "Low level Ruby access to the Answers Platform API", + "name": "agile", + "description": "Agile Principles and Practice, documented by the 18F Agile Guild", "permissions": { "licenses": null, "usageType": "openSource", @@ -11112,15 +14917,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/answers-ruby-client", + "repositoryURL": "https://github.com/18F/agile", "laborHours": 0, "organization": "18F" }, { - "name": "vagrant-chef-elasticsearch", - "description": "A simple Vagrant setup to get you started with running Elasticsearch", + "name": "django-rest-swagger", + "description": "Swagger Documentation Generator for Django REST Framework", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-2-clause", + "name": "BSD-2-Clause" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -11130,13 +14940,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/vagrant-chef-elasticsearch", + "repositoryURL": "https://github.com/18F/django-rest-swagger", "laborHours": 0, "organization": "18F" }, { - "name": "fbopen-python", - "description": "Python access to the FBOpen API", + "name": "training", + "description": "A repo to organize training at 18f.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11148,13 +14958,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fbopen-python", + "repositoryURL": "https://github.com/18F/training", "laborHours": 0, "organization": "18F" }, { - "name": "myra", - "description": "Landing pages to promote the Treasury's new myRA initiative.", + "name": "guides", + "description": "A collection of 18F guides.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11166,18 +14976,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/myra", + "repositoryURL": "https://github.com/18F/guides", "laborHours": 0, "organization": "18F" }, { - "name": "sqlalchemy-jsonapi", - "description": "JSONAPI implementation for use with SQLAlchemy", + "name": "api-program", + "description": "A complete agency API program. ", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" } ], "usageType": "openSource", @@ -11189,13 +14999,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sqlalchemy-jsonapi", + "repositoryURL": "https://github.com/18F/api-program", "laborHours": 0, "organization": "18F" }, { - "name": "GoT", - "description": "GoT", + "name": "tourney", + "description": "WIP: a gem to cycle through environment variables", "permissions": { "licenses": null, "usageType": "openSource", @@ -11207,13 +15017,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/GoT", + "repositoryURL": "https://github.com/18F/tourney", "laborHours": 0, "organization": "18F" }, { - "name": "pyfpds", - "description": "pyfpds is a python wrapper around the FPDS ATOM feed", + "name": "cf-deploy", + "description": "An experiment to make CloudFront/S3 deployments nice and easy.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11225,13 +15035,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pyfpds", + "repositoryURL": "https://github.com/18F/cf-deploy", "laborHours": 0, "organization": "18F" }, { - "name": "fec-graph-search", - "description": "DEPRECATED ", + "name": "data-inventory", + "description": "18F's contributions to the GSA enterprise data inventory and public data listing", "permissions": { "licenses": null, "usageType": "openSource", @@ -11243,13 +15053,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-graph-search", + "repositoryURL": "https://github.com/18F/data-inventory", "laborHours": 0, "organization": "18F" }, { - "name": "playbook", - "description": "The U.S. Digital Services Playbook", + "name": "cg-manifests", + "description": "DEPRECATED: Release Manifest for Cloud Foundry", "permissions": { "licenses": null, "usageType": "openSource", @@ -11261,13 +15071,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/playbook", + "repositoryURL": "https://github.com/18F/cg-manifests", "laborHours": 0, "organization": "18F" }, { - "name": "openFEC", - "description": "The first RESTful API for the Federal Election Commission. We're aiming to make campaign finance more accessible for journalists, academics, developers, and other transparency seekers.", + "name": "doc_processing_toolkit", + "description": "Python library to extract text from PDF, and default to OCR when text extraction fails.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11279,13 +15089,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/openFEC", + "repositoryURL": "https://github.com/18F/doc_processing_toolkit", "laborHours": 0, "organization": "18F" }, { - "name": "https", - "description": "(DEPRECATED) 18F team HTTPS ops documentation.", + "name": "myths", + "description": "Dispelling myths.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11297,13 +15107,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/https", + "repositoryURL": "https://github.com/18F/myths", "laborHours": 0, "organization": "18F" }, { - "name": "aaa-exp-proto1", - "description": "This is an experimental repository to prototype some Ajax and GUI ideas", + "name": "solrstrap", + "description": "Solrstrap is a Query-Result interface for Solr written in JavaScript, HTML and CSS", "permissions": { "licenses": null, "usageType": "openSource", @@ -11315,13 +15125,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/aaa-exp-proto1", + "repositoryURL": "https://github.com/18F/solrstrap", "laborHours": 0, "organization": "18F" }, { - "name": "FAB", - "description": "FAB is the FBOpen A/B test project", + "name": "testing-cookbook", + "description": "The 18F testing cookbook contains recipes and best practices for automated and manual testing in lots of different environments, languages, stacks and platforms.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11333,13 +15143,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/FAB", + "repositoryURL": "https://github.com/18F/testing-cookbook", "laborHours": 0, "organization": "18F" }, { - "name": "dashboard", - "description": "DEPRECATED: A site to track our projects' status and much, much more...", + "name": "agile-labor-categories", + "description": "agile-labor-categories", "permissions": { "licenses": null, "usageType": "openSource", @@ -11351,13 +15161,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dashboard", + "repositoryURL": "https://github.com/18F/agile-labor-categories", "laborHours": 0, "organization": "18F" }, { - "name": "consulting", - "description": "18F Consulting", + "name": "data-act-schemas", + "description": "Some exploratory schemas for DATA Act implementation", "permissions": { "licenses": null, "usageType": "openSource", @@ -11369,13 +15179,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/consulting", + "repositoryURL": "https://github.com/18F/data-act-schemas", "laborHours": 0, "organization": "18F" }, { - "name": "microsite-template-18f", - "description": "This is our first template site used to replicate micro sites.", + "name": "hackathons", + "description": "A microsite of hackathons hosted by 18F", "permissions": { "licenses": null, "usageType": "openSource", @@ -11387,13 +15197,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/microsite-template-18f", + "repositoryURL": "https://github.com/18F/hackathons", "laborHours": 0, "organization": "18F" }, { - "name": "microsite-18f", - "description": "This is an attempt to automatically create very, very small gh-pages sites on github.", + "name": "quotable", + "description": "quotable", "permissions": { "licenses": [ { @@ -11410,13 +15220,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/microsite-18f", + "repositoryURL": "https://github.com/18F/quotable", "laborHours": 0, "organization": "18F" }, { - "name": "mock-pay", - "description": "A mock version of pay.gov for rapid testing", + "name": "django-gzipping-cache", + "description": "django-gzipping-cache", "permissions": { "licenses": null, "usageType": "openSource", @@ -11428,13 +15238,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/mock-pay", + "repositoryURL": "https://github.com/18F/django-gzipping-cache", "laborHours": 0, "organization": "18F" }, { - "name": "18f-bot", - "description": "18F's Slack bot, Charlie. Based on Hubot.", + "name": "project-monitor", + "description": "ProjectMonitor is a CI display aggregator. It displays the status of multiple Continuous Integration builds on a single web page.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11446,13 +15256,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/18f-bot", + "repositoryURL": "https://github.com/18F/project-monitor", "laborHours": 0, "organization": "18F" }, { - "name": "hackathontrainingday", - "description": "The 18F Women in Tech & Data Hackathon + Training Day November 7, 2014", + "name": "usds-hub", + "description": "A Hub that links together all of the U.S. Digital Service teams", "permissions": { "licenses": null, "usageType": "openSource", @@ -11464,13 +15274,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hackathontrainingday", + "repositoryURL": "https://github.com/18F/usds-hub", "laborHours": 0, "organization": "18F" }, { - "name": "how-to-work-with-18f", - "description": "This is a repository for Aaron", + "name": "myusa-ux", + "description": "This is where we put materials relating to the user experience of MyUSA. Code goes into https://github.com/18F/myusa. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -11482,13 +15292,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/how-to-work-with-18f", + "repositoryURL": "https://github.com/18F/myusa-ux", "laborHours": 0, "organization": "18F" }, { - "name": "Sendak", - "description": "[DEPRECATED] Sendak integrates user, project, and deployment management for 18F", + "name": "protosketch-demo", + "description": "A demonstration of protosketching techniques", "permissions": { "licenses": null, "usageType": "openSource", @@ -11500,13 +15310,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/Sendak", + "repositoryURL": "https://github.com/18F/protosketch-demo", "laborHours": 0, "organization": "18F" }, { - "name": "shipper", - "description": "Continuous deployment made easy and secure", + "name": "urlsize", + "description": "get the size of one or more URLs", "permissions": { "licenses": null, "usageType": "openSource", @@ -11518,13 +15328,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/shipper", + "repositoryURL": "https://github.com/18F/urlsize", "laborHours": 0, "organization": "18F" }, { - "name": "gsa_auctions_gem", - "description": "Ruby access to the GSA Auctions API", + "name": "metascraper", + "description": "scrapers to create iso metadata", "permissions": { "licenses": null, "usageType": "openSource", @@ -11536,33 +15346,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/gsa_auctions_gem", + "repositoryURL": "https://github.com/18F/metascraper", "laborHours": 0, "organization": "18F" }, { - "name": "frontend", - "description": "18F's Front End Guild", + "name": "laptop", + "description": "A shell script which turns your Mac into an awesome web development machine.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "frontend", - "guide", - "guild" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/frontend", + "repositoryURL": "https://github.com/18F/laptop", "laborHours": 0, "organization": "18F" }, { - "name": "inclusive-design-guide", - "description": "18F guide for building inclusive and accessible digital products.", + "name": "cg-harden-boshrelease", + "description": "Ubuntu Hardening Bosh Release", "permissions": { "licenses": null, "usageType": "openSource", @@ -11574,18 +15382,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/inclusive-design-guide", + "repositoryURL": "https://github.com/18F/cg-harden-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "open-opportunities-theme", - "description": "Federal-wide Open Opportunities - on the openopps-platform", + "name": "python-buildpack", + "description": "Cloud Foundry buildpack for the Python Language", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" } ], "usageType": "openSource", @@ -11597,31 +15405,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/open-opportunities-theme", - "laborHours": 0, - "organization": "18F" - }, - { - "name": "starter-ui", - "description": "A compilation of assets to jump start a new web UI project with 18F branding.", - "permissions": { - "licenses": null, - "usageType": "openSource", - "exemptionText": null - }, - "tags": [ - "18F" - ], - "contact": { - "email": "18f@gsa.gov" - }, - "repositoryURL": "https://github.com/18F/starter-ui", + "repositoryURL": "https://github.com/18F/python-buildpack", "laborHours": 0, "organization": "18F" }, { - "name": "bulk-storage", - "description": "File hosting as a service.", + "name": "pulse", + "description": "How the federal .gov domain space is doing at best practices and policies.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11633,15 +15423,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bulk-storage", + "repositoryURL": "https://github.com/18F/pulse", "laborHours": 0, "organization": "18F" }, { - "name": "openFEC-web-app", - "description": "The new FEC.gov web app for exploring campaign finance data", + "name": "ckanext-datesearch", + "description": "ckanext-datesearch", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/agpl-3.0", + "name": "AGPL-3.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -11651,13 +15446,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/openFEC-web-app", + "repositoryURL": "https://github.com/18F/ckanext-datesearch", "laborHours": 0, "organization": "18F" }, { - "name": "shipper-cookbook", - "description": "A Chef cookbook to install and create configs for Shipper", + "name": "ideas", + "description": "ideas for 18F projects", "permissions": { "licenses": null, "usageType": "openSource", @@ -11669,13 +15464,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/shipper-cookbook", + "repositoryURL": "https://github.com/18F/ideas", "laborHours": 0, "organization": "18F" }, { - "name": "pif3-oct-apprentice", - "description": "This is a repository for Rob", + "name": "scorecard", + "description": "A lightweight scorecard for clients and products that can be used at the beginning of client engagement or during and can help highlight areas that may impact success.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11687,13 +15482,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pif3-oct-apprentice", + "repositoryURL": "https://github.com/18F/scorecard", "laborHours": 0, "organization": "18F" }, { - "name": "pif3-oct-whibrary", - "description": "This is a repository for Rob", + "name": "d3-technical-debt", + "description": "This is a d3-implemented interactive model to explain technical debt", "permissions": { "licenses": null, "usageType": "openSource", @@ -11705,13 +15500,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pif3-oct-whibrary", + "repositoryURL": "https://github.com/18F/d3-technical-debt", "laborHours": 0, "organization": "18F" }, { - "name": "code-of-conduct", - "description": "18F's code of conduct.", + "name": "cf-sinatra-ci", + "description": "An experiment with using Travis-CI to a deploy a Sinatra app to Cloud Foundry", "permissions": { "licenses": null, "usageType": "openSource", @@ -11723,13 +15518,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/code-of-conduct", + "repositoryURL": "https://github.com/18F/cf-sinatra-ci", "laborHours": 0, "organization": "18F" }, { - "name": "mirage-cookbook", - "description": "A chef cookbook to install and setup the Mirage market research tool", + "name": "financial-models", + "description": "Financial models and spreadsheets of Software-development", "permissions": { "licenses": null, "usageType": "openSource", @@ -11741,15 +15536,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/mirage-cookbook", + "repositoryURL": "https://github.com/18F/financial-models", "laborHours": 0, "organization": "18F" }, { - "name": "peacecorps-placeholder-images", - "description": "peacecorps-placeholder-images", + "name": "sauceclient", + "description": "Python client library for Sauce Labs API", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -11759,13 +15559,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/peacecorps-placeholder-images", + "repositoryURL": "https://github.com/18F/sauceclient", "laborHours": 0, "organization": "18F" }, { - "name": "up", - "description": "Up is a simple utility to encrypt secrets and upload them to a specified S3 bucket, all in a shell script!", + "name": "mapwarper_metadata", + "description": "simple template for mapwarper - should be integrated and ported to ruby", "permissions": { "licenses": null, "usageType": "openSource", @@ -11777,18 +15577,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/up", + "repositoryURL": "https://github.com/18F/mapwarper_metadata", "laborHours": 0, "organization": "18F" }, { - "name": "rdbms-subsetter", - "description": "Generates a subset of a relational database that respects foreign key constraints", + "name": "oauth2_proxy", + "description": "A reverse proxy that provides authentication using OAuth2", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" } ], "usageType": "openSource", @@ -11800,13 +15600,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/rdbms-subsetter", + "repositoryURL": "https://github.com/18F/oauth2_proxy", "laborHours": 0, "organization": "18F" }, { - "name": "sendak-usage", - "description": "A command-line parser/usage generator wrapping minimist", + "name": "abb", + "description": "Always be billin'", "permissions": { "licenses": null, "usageType": "openSource", @@ -11818,13 +15618,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sendak-usage", + "repositoryURL": "https://github.com/18F/abb", "laborHours": 0, "organization": "18F" }, { - "name": "analytics-proxy", - "description": "Experimental proxy to make GA data public. ", + "name": "data-act-sf133", + "description": "Explore relationship between the Report on Budget Execution and Budgetary Resources (SF-133) and the DATA Act.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11836,13 +15636,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/analytics-proxy", + "repositoryURL": "https://github.com/18F/data-act-sf133", "laborHours": 0, "organization": "18F" }, { - "name": "myusa-cookbook", - "description": "Chef cookbook to install and configure MyUSA", + "name": "r2s", + "description": "Navy Reserve \"Ready to Serve\" Mobile Web Application", "permissions": { "licenses": null, "usageType": "openSource", @@ -11854,13 +15654,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/myusa-cookbook", + "repositoryURL": "https://github.com/18F/r2s", "laborHours": 0, "organization": "18F" }, { - "name": "18fconsulting-proto-3", - "description": "An 18F Consulting Protosketch", + "name": "continua11y", + "description": "continuous integration for website accessibility", "permissions": { "licenses": null, "usageType": "openSource", @@ -11872,13 +15672,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/18fconsulting-proto-3", + "repositoryURL": "https://github.com/18F/continua11y", "laborHours": 0, "organization": "18F" }, { - "name": "api-playground", - "description": "A playground repo for APIs", + "name": "cg-scripts", + "description": "Scripts to assist with the configuration and operation of Cloud Foundry.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11890,13 +15690,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/api-playground", + "repositoryURL": "https://github.com/18F/cg-scripts", "laborHours": 0, "organization": "18F" }, { - "name": "calc", - "description": "An estimator for hourly rates on professional services contracts", + "name": "jekyll-get", + "description": "Jekyll plugin to download data from external JSON sources to use in generating a site", "permissions": { "licenses": null, "usageType": "openSource", @@ -11908,13 +15708,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/calc", + "repositoryURL": "https://github.com/18F/jekyll-get", "laborHours": 0, "organization": "18F" }, { - "name": "email-to-github-issues", - "description": "(INACTIVE) A Mandrill Inbound email webhook that opens GitHub issues. Great for approving HTTPS certificates.", + "name": "cf-ssh", + "description": "SSH into a running container for your Cloud Foundry application, run one-off tasks, debug your app, and more.", "permissions": { "licenses": null, "usageType": "openSource", @@ -11926,13 +15726,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/email-to-github-issues", + "repositoryURL": "https://github.com/18F/cf-ssh", "laborHours": 0, "organization": "18F" }, { - "name": "data-public", - "description": "DEPRECATED: All 18F team data is now stored in 18F/data-private", + "name": "fedspendingtransparency.github.io", + "description": "Federal Spending Transparency", "permissions": { "licenses": null, "usageType": "openSource", @@ -11944,15 +15744,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-public", + "repositoryURL": "https://github.com/18F/fedspendingtransparency.github.io", "laborHours": 0, "organization": "18F" }, { - "name": "ckanext-geodatagov", - "description": "data.gov extension", + "name": "eiti-data", + "description": "[WIP] EITI data and maps for DOI", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -11962,13 +15767,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ckanext-geodatagov", + "repositoryURL": "https://github.com/18F/eiti-data", "laborHours": 0, "organization": "18F" }, { - "name": "ckanext-spatial", - "description": "Geospatial extension for CKAN", + "name": "data-act-workshop", + "description": "Code written during the DATA act agile workshop", "permissions": { "licenses": null, "usageType": "openSource", @@ -11980,13 +15785,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ckanext-spatial", + "repositoryURL": "https://github.com/18F/data-act-workshop", "laborHours": 0, "organization": "18F" }, { - "name": "ckanext-formats", - "description": "Formats Plugin for CKAN", + "name": "slides", + "description": "Slides for 18F - built automatically using Federalist", "permissions": { "licenses": null, "usageType": "openSource", @@ -11998,32 +15803,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ckanext-formats", + "repositoryURL": "https://github.com/18F/slides", "laborHours": 0, "organization": "18F" }, { - "name": "analytics-reporter", - "description": "Lightweight analytics reporting and publishing tool for Google Analytics data. Powers https://analytics.usa.gov, http://analytics.phila.gov, http://analytics.cityofsacramento.org, and more.", + "name": "rds-service-broker", + "description": "DEPRECATED: an RDS service broker for Cloud Foundry written in Ruby. see:", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "analytics", - "google-analytics" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/analytics-reporter", + "repositoryURL": "https://github.com/18F/rds-service-broker", "laborHours": 0, "organization": "18F" }, { - "name": "domain-scan", - "description": "A local or Lambda-based pipeline for scanning domains to measure things like HTTPS and accessibility.", + "name": "myusa-coming-soon", + "description": "[DEPRECATED] A coming soon page for MyUSA", "permissions": { "licenses": null, "usageType": "openSource", @@ -12035,13 +15839,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/domain-scan", + "repositoryURL": "https://github.com/18F/myusa-coming-soon", "laborHours": 0, "organization": "18F" }, { - "name": "flakes-flask", - "description": "A starter Flask app that uses the Flakes front-end framework", + "name": "project-monitor-helper", + "description": "A Ruby script that automatically generates the projects.json required by Project Monitor", "permissions": { "licenses": null, "usageType": "openSource", @@ -12053,15 +15857,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/flakes-flask", + "repositoryURL": "https://github.com/18F/project-monitor-helper", "laborHours": 0, "organization": "18F" }, { - "name": "usps-proxy", - "description": "A thin layer between your users and the USPS API", + "name": "cli", + "description": "A CLI for Cloud Foundry written in Go", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -12071,13 +15880,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/usps-proxy", + "repositoryURL": "https://github.com/18F/cli", "laborHours": 0, "organization": "18F" }, { - "name": "hub", - "description": "DEPRECATED: Documentation hub for the 18F team", + "name": "analytics-standards", + "description": "WIP: Team standards for implementing website and API analytics.", "permissions": { "licenses": null, "usageType": "openSource", @@ -12089,13 +15898,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hub", + "repositoryURL": "https://github.com/18F/analytics-standards", "laborHours": 0, "organization": "18F" }, { - "name": "midas-cookbook", - "description": "Chef cookbook for provisioning Midas", + "name": "508-procurement-playbook", + "description": "A draft/work-in-progress playbook for Section 508-friendly procurement", "permissions": { "licenses": null, "usageType": "openSource", @@ -12107,13 +15916,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/midas-cookbook", + "repositoryURL": "https://github.com/18F/508-procurement-playbook", "laborHours": 0, "organization": "18F" }, { - "name": "ubuntu-lts", - "description": "Ubuntu 14.04 LTS is FISMA Ready.", + "name": "sslmate-cookbook", + "description": "A chef cookbook for installing SSLMate and some optional helper scripts.", "permissions": { "licenses": null, "usageType": "openSource", @@ -12125,15 +15934,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ubuntu-lts", + "repositoryURL": "https://github.com/18F/sslmate-cookbook", "laborHours": 0, "organization": "18F" }, { - "name": "hourofcode", - "description": "[RETIRED] No longer active site; codebase is still available. GitHub repo and issue list is used for trainings.", + "name": "cloud-foundry-client-js", + "description": "A JavaScript client for Cloud Foundry. Supports running in the browser and Node.js.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -12143,13 +15957,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hourofcode", + "repositoryURL": "https://github.com/18F/cloud-foundry-client-js", "laborHours": 0, "organization": "18F" }, { - "name": "data-validator", - "description": "Validates YAML data against a schema", + "name": "fees-and-labor-rates", + "description": "Public repo for collaborative working on 18F's fee and labor rate strategy", "permissions": { "licenses": null, "usageType": "openSource", @@ -12161,13 +15975,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-validator", + "repositoryURL": "https://github.com/18F/fees-and-labor-rates", "laborHours": 0, "organization": "18F" }, { - "name": "hash-joiner", - "description": "Pruning/promotion of properties, deep merges, and joins for Ruby Hash objects", + "name": "autoapi", + "description": "A basic spreadsheet to api engine", "permissions": { "licenses": null, "usageType": "openSource", @@ -12179,20 +15993,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hash-joiner", + "repositoryURL": "https://github.com/18F/autoapi", "laborHours": 0, "organization": "18F" }, { - "name": "sails-postgresql", - "description": "PostgreSQL adapter for Sails.js", + "name": "dol-whd-foh", + "description": "DOL/WHD FOH :point_right:", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -12202,13 +16011,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sails-postgresql", + "repositoryURL": "https://github.com/18F/dol-whd-foh", "laborHours": 0, "organization": "18F" }, { - "name": "usps-api-notes", - "description": "A collection of notes taken about the USPS APIs", + "name": "guides-template", + "description": "Jekyll template for 18F Guides, based on CFPB/DOCter", "permissions": { "licenses": null, "usageType": "openSource", @@ -12220,58 +16029,49 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/usps-api-notes", + "repositoryURL": "https://github.com/18F/guides-template", "laborHours": 0, "organization": "18F" }, { - "name": "django-elasticache", - "description": "pylibmc based client for Amazon ElastiCache with auto discovery function", + "name": "pa11y-reporter-ci", + "description": "A pa11y reporter for continuous integration environments ", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-elasticache", + "repositoryURL": "https://github.com/18F/pa11y-reporter-ci", "laborHours": 0, "organization": "18F" }, { - "name": "analytics.usa.gov", - "description": "The US federal government's web traffic.", + "name": "node-sauce-template", + "description": "A Node.js template for cross-browser functional tests with Sauce Labs", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "analytics", - "analytics-dashboard", - "dap", - "statistics", - "traffic" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/analytics.usa.gov", + "repositoryURL": "https://github.com/18F/node-sauce-template", "laborHours": 0, "organization": "18F" }, { - "name": "docker-fugacious", - "description": "Easily deploy Fugacious backed with Postgres via Docker and FIg.", + "name": "WMSViewer", + "description": "WMSViewer", "permissions": { "licenses": null, "usageType": "openSource", @@ -12283,72 +16083,75 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/docker-fugacious", + "repositoryURL": "https://github.com/18F/WMSViewer", "laborHours": 0, "organization": "18F" }, { - "name": "weekly_snippets", - "description": "Standardization, munging, redaction, and publishing of weekly snippets", + "name": "methods", + "description": "The methods 18F uses to practice human-centered design.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "design", + "design-methods", + "guide", + "human-centered-design" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/weekly_snippets", + "repositoryURL": "https://github.com/18F/methods", "laborHours": 0, "organization": "18F" }, { - "name": "before-you-ship", - "description": "requirements for shipping products", + "name": "data-act-pilot", + "description": "This small DATA Act pilot contains code that translates agency data to a uniform DATA act format.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/before-you-ship", + "repositoryURL": "https://github.com/18F/data-act-pilot", "laborHours": 0, "organization": "18F" }, { - "name": "ckanext-datajson", - "description": "A CKAN extension for /data pages in Project Open Data implementation", + "name": "pages", + "description": "DEPRECATED: Publishing platform for 18F sites a la GitHub pages", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "deprecated" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ckanext-datajson", + "repositoryURL": "https://github.com/18F/pages", "laborHours": 0, "organization": "18F" }, { - "name": "dashboards-on-demand", - "description": "A proposal for various live dashboards (not affiliated with the 18F Dashboard project)", + "name": "slackin", + "description": "DEPRECATED: see https://github.com/18F/chat", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" } ], "usageType": "openSource", @@ -12360,13 +16163,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dashboards-on-demand", + "repositoryURL": "https://github.com/18F/slackin", "laborHours": 0, "organization": "18F" }, { - "name": "team_hub", - "description": "Components for creating a team Hub using Jekyll", + "name": "jekyll-search-server", + "description": "A standalone search crawler and API for Jekyll sites.", "permissions": { "licenses": null, "usageType": "openSource", @@ -12378,13 +16181,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/team_hub", + "repositoryURL": "https://github.com/18F/jekyll-search-server", "laborHours": 0, "organization": "18F" }, { - "name": "test_temp_file_helper", - "description": "Generates and cleans up temp files for automated tests", + "name": "what-is-devops", + "description": "A place for @noahkunin to store presentation materials about devops", "permissions": { "licenses": null, "usageType": "openSource", @@ -12396,13 +16199,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/test_temp_file_helper", + "repositoryURL": "https://github.com/18F/what-is-devops", "laborHours": 0, "organization": "18F" }, { - "name": "sendak-touch", - "description": "A reference project for Sendak - touches a file.", + "name": "joining-18f", + "description": "A guide for anyone interested in joining the 18F team", "permissions": { "licenses": null, "usageType": "openSource", @@ -12414,13 +16217,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sendak-touch", + "repositoryURL": "https://github.com/18F/joining-18f", "laborHours": 0, "organization": "18F" }, { - "name": "jekyll_pages_api", - "description": "a Jekyll Plugin that generates a JSON file with data for all the Pages in your Site", + "name": "procurement-glossary", + "description": "A WIP", "permissions": { "licenses": null, "usageType": "openSource", @@ -12432,20 +16235,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/jekyll_pages_api", + "repositoryURL": "https://github.com/18F/procurement-glossary", "laborHours": 0, "organization": "18F" }, { - "name": "openFEC-documentation", - "description": "Documentation to support upcoming data platform API and data sets", + "name": "lean-product-design", + "description": "A guide to using Lean Product Design on your project", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/unlicense", - "name": "Unlicense" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -12455,32 +16253,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/openFEC-documentation", + "repositoryURL": "https://github.com/18F/lean-product-design", "laborHours": 0, "organization": "18F" }, { - "name": "automated-testing-playbook", - "description": "A set of principles, practices, idioms, and strategies pertaining to automated software testing and its adoption", + "name": "charmander", + "description": "Charmander is a simple template for producing Jekyll static sites using Vagrant, Gulp, Bourbon, Neat, Bitters, and Bower.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "playbook", - "testing" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/automated-testing-playbook", + "repositoryURL": "https://github.com/18F/charmander", "laborHours": 0, "organization": "18F" }, { - "name": "cg-site", - "description": "The cloud.gov site", + "name": "polyfill-service", + "description": "Automatic polyfill service", "permissions": { "licenses": null, "usageType": "openSource", @@ -12492,33 +16289,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-site", + "repositoryURL": "https://github.com/18F/polyfill-service", "laborHours": 0, "organization": "18F" }, { - "name": "accessibility", - "description": "A repo to organize the guidelines and best practices for accessibility at 18f.", + "name": "docker-elasticsearch", + "description": "A Dockerfile and supporting scripts used to build an Elasticsearch 1.5 image which exposes environment variables for basic authentication at runtime.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "a11y", - "accessibility", - "best-practices" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/accessibility", + "repositoryURL": "https://github.com/18F/docker-elasticsearch", "laborHours": 0, "organization": "18F" }, { - "name": "tock", - "description": "We use Tock to track and report our time at 18F", + "name": "hubot-cf-notifications", + "description": "Cloud Foundry notifications for Hubot", "permissions": { "licenses": null, "usageType": "openSource", @@ -12530,13 +16325,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tock", + "repositoryURL": "https://github.com/18F/hubot-cf-notifications", "laborHours": 0, "organization": "18F" }, { - "name": "grouplet-playbook", - "description": "A handbook for those wishing to recruit a self-organizing volunteer group to address organizational needs", + "name": "sbirez-prototype", + "description": "Prototype for SBIR-EZ.", "permissions": { "licenses": null, "usageType": "openSource", @@ -12548,13 +16343,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/grouplet-playbook", + "repositoryURL": "https://github.com/18F/sbirez-prototype", "laborHours": 0, "organization": "18F" }, { - "name": "ficam-openid", - "description": "A FICAM profile for OpenID", + "name": "fec-alpha", + "description": "DEPRICATED ", "permissions": { "licenses": null, "usageType": "openSource", @@ -12566,18 +16361,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ficam-openid", + "repositoryURL": "https://github.com/18F/fec-alpha", "laborHours": 0, "organization": "18F" }, { - "name": "agile", - "description": "Agile Principles and Practice, documented by the 18F Agile Guild", + "name": "pa11y-dashboard", + "description": "pa11y-dashboard is a web interface which helps you monitor the accessibility of your websites", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" } ], "usageType": "openSource", @@ -12589,20 +16384,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/agile", + "repositoryURL": "https://github.com/18F/pa11y-dashboard", "laborHours": 0, "organization": "18F" }, { - "name": "django-rest-swagger", - "description": "Swagger Documentation Generator for Django REST Framework", + "name": "gitter", + "description": "Create a folder of archived git repositories, using a csv to identify which repositories to clone.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/bsd-2-clause", - "name": "BSD-2-Clause" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -12612,13 +16402,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-rest-swagger", + "repositoryURL": "https://github.com/18F/gitter", "laborHours": 0, "organization": "18F" }, { - "name": "training", - "description": "A repo to organize training at 18f.", + "name": "ekip", + "description": "Every Kid in a Park", "permissions": { "licenses": null, "usageType": "openSource", @@ -12630,13 +16420,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/training", + "repositoryURL": "https://github.com/18F/ekip", "laborHours": 0, "organization": "18F" }, { - "name": "guides", - "description": "A collection of 18F guides.", + "name": "cf-hello-worlds", + "description": "Hello World apps for Cloud Foundry", "permissions": { "licenses": null, "usageType": "openSource", @@ -12648,20 +16438,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/guides", + "repositoryURL": "https://github.com/18F/cf-hello-worlds", "laborHours": 0, "organization": "18F" }, { - "name": "api-program", - "description": "A complete agency API program. ", + "name": "cg-quotas-db", + "description": "Lightweight Flask app for storing Cloud Foundry quotas data ", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -12671,13 +16456,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/api-program", + "repositoryURL": "https://github.com/18F/cg-quotas-db", "laborHours": 0, "organization": "18F" }, { - "name": "tourney", - "description": "WIP: a gem to cycle through environment variables", + "name": "data-act-csv-export", + "description": "data-act-csv-export", "permissions": { "licenses": null, "usageType": "openSource", @@ -12689,13 +16474,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tourney", + "repositoryURL": "https://github.com/18F/data-act-csv-export", "laborHours": 0, "organization": "18F" }, { - "name": "cf-deploy", - "description": "An experiment to make CloudFront/S3 deployments nice and easy.", + "name": "ekip-api", + "description": "The source for the Every Kid in a Park website. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -12707,13 +16492,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-deploy", + "repositoryURL": "https://github.com/18F/ekip-api", "laborHours": 0, "organization": "18F" }, { - "name": "data-inventory", - "description": "18F's contributions to the GSA enterprise data inventory and public data listing", + "name": "record-locator", + "description": "Generate a safe record locator (used for ticketing systems). ", "permissions": { "licenses": null, "usageType": "openSource", @@ -12725,13 +16510,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-inventory", + "repositoryURL": "https://github.com/18F/record-locator", "laborHours": 0, "organization": "18F" }, { - "name": "cg-manifests", - "description": "DEPRECATED: Release Manifest for Cloud Foundry", + "name": "billing-tools", + "description": "billing tools/scripts for AWS", "permissions": { "licenses": null, "usageType": "openSource", @@ -12743,13 +16528,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-manifests", + "repositoryURL": "https://github.com/18F/billing-tools", "laborHours": 0, "organization": "18F" }, { - "name": "doc_processing_toolkit", - "description": "Python library to extract text from PDF, and default to OCR when text extraction fails.", + "name": "education-compliance-reports", + "description": "education-compliance-reports", "permissions": { "licenses": null, "usageType": "openSource", @@ -12761,13 +16546,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/doc_processing_toolkit", + "repositoryURL": "https://github.com/18F/education-compliance-reports", "laborHours": 0, "organization": "18F" }, { - "name": "myths", - "description": "Dispelling myths.", + "name": "military-onesource-federalist", + "description": "Testing Military OneSource on Federalist", "permissions": { "licenses": null, "usageType": "openSource", @@ -12779,13 +16564,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/myths", + "repositoryURL": "https://github.com/18F/military-onesource-federalist", "laborHours": 0, "organization": "18F" }, { - "name": "solrstrap", - "description": "Solrstrap is a Query-Result interface for Solr written in JavaScript, HTML and CSS", + "name": "citysdk-innov-district", + "description": "CitySDK Data Workshop -- Innovation District Showcase Dashboard", "permissions": { "licenses": null, "usageType": "openSource", @@ -12797,13 +16582,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/solrstrap", + "repositoryURL": "https://github.com/18F/citysdk-innov-district", "laborHours": 0, "organization": "18F" }, { - "name": "testing-cookbook", - "description": "The 18F testing cookbook contains recipes and best practices for automated and manual testing in lots of different environments, languages, stacks and platforms.", + "name": "github-dashing", + "description": "Dashboard to monitor the health of github projects based on their contribution statistics, based on the \"Dashing\" framework", "permissions": { "licenses": null, "usageType": "openSource", @@ -12815,15 +16600,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/testing-cookbook", + "repositoryURL": "https://github.com/18F/github-dashing", "laborHours": 0, "organization": "18F" }, { - "name": "agile-labor-categories", - "description": "agile-labor-categories", + "name": "angular-livesearch", + "description": "An angular directive for auto-completing", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -12833,13 +16623,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/agile-labor-categories", + "repositoryURL": "https://github.com/18F/angular-livesearch", "laborHours": 0, "organization": "18F" }, { - "name": "data-act-schemas", - "description": "Some exploratory schemas for DATA Act implementation", + "name": "jekyll_pages_api_search", + "description": "Jekyll search plugin based on lunr.js and jekyll_pages_api", "permissions": { "licenses": null, "usageType": "openSource", @@ -12851,13 +16641,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-act-schemas", + "repositoryURL": "https://github.com/18F/jekyll_pages_api_search", "laborHours": 0, "organization": "18F" }, { - "name": "hackathons", - "description": "A microsite of hackathons hosted by 18F", + "name": "collector", + "description": "collector", "permissions": { "licenses": null, "usageType": "openSource", @@ -12869,59 +16659,90 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hackathons", + "repositoryURL": "https://github.com/18F/collector", "laborHours": 0, "organization": "18F" }, { - "name": "quotable", - "description": "quotable", + "name": "cg-cf-release", + "description": "[DEPRECATED] 18F Cloud Foundry Bosh Release for customizations", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" } ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/cg-cf-release", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "agile-solicitation-builder", + "description": "This repository is archived and deprecated. Please see the USDS Agile Solicitation Builder for current updates. ", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/agile-solicitation-builder", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "federalist", + "description": "Federalist is a unified interface for publishing static government websites.", + "permissions": { + "licenses": null, + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "federalist" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/quotable", + "repositoryURL": "https://github.com/18F/federalist", "laborHours": 0, "organization": "18F" }, { - "name": "django-gzipping-cache", - "description": "django-gzipping-cache", + "name": "jekyll-data-migrate", + "description": "jekyll-data-migrate", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/bsd-3-clause", - "name": "BSD-3-Clause" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-gzipping-cache", + "repositoryURL": "https://github.com/18F/jekyll-data-migrate", "laborHours": 0, "organization": "18F" }, { - "name": "project-monitor", - "description": "ProjectMonitor is a CI display aggregator. It displays the status of multiple Continuous Integration builds on a single web page.", + "name": "ads-bpa", + "description": "A guide for the Agile Delivery Services BPA", "permissions": { "licenses": null, "usageType": "openSource", @@ -12933,13 +16754,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/project-monitor", + "repositoryURL": "https://github.com/18F/ads-bpa", "laborHours": 0, "organization": "18F" }, { - "name": "usds-hub", - "description": "A Hub that links together all of the U.S. Digital Service teams", + "name": "django-pyodbc", + "description": "An ODBC-powered MS SQL Server DB backend for Django 1.4+", "permissions": { "licenses": null, "usageType": "openSource", @@ -12951,13 +16772,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/usds-hub", + "repositoryURL": "https://github.com/18F/django-pyodbc", "laborHours": 0, "organization": "18F" }, { - "name": "myusa-ux", - "description": "This is where we put materials relating to the user experience of MyUSA. Code goes into https://github.com/18F/myusa. ", + "name": "django-pyodbc-access", + "description": "Django Access MDB file database backend. Yes, seriously.", "permissions": { "licenses": null, "usageType": "openSource", @@ -12969,13 +16790,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/myusa-ux", + "repositoryURL": "https://github.com/18F/django-pyodbc-access", "laborHours": 0, "organization": "18F" }, { - "name": "protosketch-demo", - "description": "A demonstration of protosketching techniques", + "name": "swagger-ui", + "description": "DEPRECATED DEPENDENCY NO LONGER IN USE", "permissions": { "licenses": null, "usageType": "openSource", @@ -12987,31 +16808,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/protosketch-demo", + "repositoryURL": "https://github.com/18F/swagger-ui", "laborHours": 0, "organization": "18F" }, { - "name": "urlsize", - "description": "get the size of one or more URLs", + "name": "data-act-usaspending", + "description": "The DATA Act version of USAspending.gov.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/urlsize", + "repositoryURL": "https://github.com/18F/data-act-usaspending", "laborHours": 0, "organization": "18F" }, { - "name": "metascraper", - "description": "scrapers to create iso metadata", + "name": "cf-provision-user-space-plugin", + "description": "Cloud Foundry CLI plugin to create users", "permissions": { "licenses": null, "usageType": "openSource", @@ -13023,13 +16844,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/metascraper", + "repositoryURL": "https://github.com/18F/cf-provision-user-space-plugin", "laborHours": 0, "organization": "18F" }, { - "name": "laptop", - "description": "A shell script which turns your Mac into an awesome web development machine.", + "name": "open-data-maker", + "description": "make it easy to turn a lot of potentially large csv files into easily accessible open data", "permissions": { "licenses": null, "usageType": "openSource", @@ -13041,13 +16862,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/laptop", + "repositoryURL": "https://github.com/18F/open-data-maker", "laborHours": 0, "organization": "18F" }, { - "name": "cg-harden-boshrelease", - "description": "Ubuntu Hardening Bosh Release", + "name": "myusa-rails-example", + "description": "DEPRECATED: An example Rails app that connects to MyUSA", "permissions": { "licenses": null, "usageType": "openSource", @@ -13059,20 +16880,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-harden-boshrelease", + "repositoryURL": "https://github.com/18F/myusa-rails-example", "laborHours": 0, "organization": "18F" }, { - "name": "python-buildpack", - "description": "Cloud Foundry buildpack for the Python Language", + "name": "wg-testing", + "description": "18F Testing Grouplet", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -13082,13 +16898,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/python-buildpack", + "repositoryURL": "https://github.com/18F/wg-testing", "laborHours": 0, "organization": "18F" }, { - "name": "pulse", - "description": "How the .gov domain space is doing at best practices and federal requirements.", + "name": "devops-assessment", + "description": "Evaluating DevOps capability (ARCHIVED)", "permissions": { "licenses": null, "usageType": "openSource", @@ -13100,20 +16916,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pulse", + "repositoryURL": "https://github.com/18F/devops-assessment", "laborHours": 0, "organization": "18F" }, { - "name": "ckanext-datesearch", - "description": "ckanext-datesearch", + "name": "iaa-gem", + "description": "A Ruby gem for reading and writing Interagency Agreement PDFs", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/agpl-3.0", - "name": "AGPL-3.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -13123,15 +16934,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ckanext-datesearch", + "repositoryURL": "https://github.com/18F/iaa-gem", "laborHours": 0, "organization": "18F" }, { - "name": "ideas", - "description": "ideas for 18F projects", + "name": "hookshot", + "description": "Hookshot is a tiny library and companion CLI tool for handling GitHub post-receive hooks.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -13141,13 +16957,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ideas", + "repositoryURL": "https://github.com/18F/hookshot", "laborHours": 0, "organization": "18F" }, { - "name": "scorecard", - "description": "A lightweight scorecard for clients and products that can be used at the beginning of client engagement or during and can help highlight areas that may impact success.", + "name": "design-principles-guide", + "description": "design-principles-guide", "permissions": { "licenses": null, "usageType": "openSource", @@ -13159,13 +16975,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/scorecard", + "repositoryURL": "https://github.com/18F/design-principles-guide", "laborHours": 0, "organization": "18F" }, { - "name": "d3-technical-debt", - "description": "This is a d3-implemented interactive model to explain technical debt", + "name": "django-pgjson", + "description": "PostgreSQL json field support for Django", "permissions": { "licenses": null, "usageType": "openSource", @@ -13177,15 +16993,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/d3-technical-debt", + "repositoryURL": "https://github.com/18F/django-pgjson", "laborHours": 0, "organization": "18F" }, { - "name": "cf-sinatra-ci", - "description": "An experiment with using Travis-CI to a deploy a Sinatra app to Cloud Foundry", + "name": "jekyll", + "description": "Jekyll is a blog-aware, static site generator in Ruby", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -13195,13 +17016,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-sinatra-ci", + "repositoryURL": "https://github.com/18F/jekyll", "laborHours": 0, "organization": "18F" }, { - "name": "financial-models", - "description": "Financial models and spreadsheets of Software-development", + "name": "noaabigdata-code", + "description": "code to help move data to the cloud from NOAA sources", "permissions": { "licenses": null, "usageType": "openSource", @@ -13213,18 +17034,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/financial-models", + "repositoryURL": "https://github.com/18F/noaabigdata-code", "laborHours": 0, "organization": "18F" }, { - "name": "sauceclient", - "description": "Python client library for Sauce Labs API", + "name": "guard-rspec", + "description": "Guard::RSpec automatically run your specs (much like autotest)", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" } ], "usageType": "openSource", @@ -13236,36 +17057,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sauceclient", + "repositoryURL": "https://github.com/18F/guard-rspec", "laborHours": 0, "organization": "18F" }, { - "name": "mapwarper_metadata", - "description": "simple template for mapwarper - should be integrated and ported to ruby", + "name": "cg-cron", + "description": "[DEPRECATED] Run cron jobs in a Cloud Foundry app.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "deprecated" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/mapwarper_metadata", + "repositoryURL": "https://github.com/18F/cg-cron", "laborHours": 0, "organization": "18F" }, { - "name": "oauth2_proxy", - "description": "A reverse proxy that provides authentication using OAuth2", + "name": "json", + "description": "Minor customizations for Python standard library's `json` module", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" } ], "usageType": "openSource", @@ -13277,13 +17098,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/oauth2_proxy", + "repositoryURL": "https://github.com/18F/json", "laborHours": 0, "organization": "18F" }, { - "name": "abb", - "description": "Always be billin'", + "name": "case-study-guide", + "description": "This guide will provide guidance on the creation, publishing, and sharing of 18F case studies.", "permissions": { "licenses": null, "usageType": "openSource", @@ -13295,13 +17116,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/abb", + "repositoryURL": "https://github.com/18F/case-study-guide", "laborHours": 0, "organization": "18F" }, { - "name": "data-act-sf133", - "description": "Explore relationship between the Report on Budget Execution and Budgetary Resources (SF-133) and the DATA Act.", + "name": "iaa-forms", + "description": "Forms for filing interagency agreements", "permissions": { "licenses": null, "usageType": "openSource", @@ -13313,13 +17134,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-act-sf133", + "repositoryURL": "https://github.com/18F/iaa-forms", "laborHours": 0, "organization": "18F" }, { - "name": "r2s", - "description": "Navy Reserve \"Ready to Serve\" Mobile Web Application", + "name": "content-guide", + "description": "18F Content Guide", "permissions": { "licenses": null, "usageType": "openSource", @@ -13331,13 +17152,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/r2s", + "repositoryURL": "https://github.com/18F/content-guide", "laborHours": 0, "organization": "18F" }, { - "name": "continua11y", - "description": "continuous integration for website accessibility", + "name": "voyage", + "description": "Allow anyone with a modern browser to stream a 1GB, 10GB, 100GB, or 1TB file over the Internet and into a happy home.", "permissions": { "licenses": null, "usageType": "openSource", @@ -13349,13 +17170,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/continua11y", + "repositoryURL": "https://github.com/18F/voyage", "laborHours": 0, "organization": "18F" }, { - "name": "cg-scripts", - "description": "Scripts to assist with the configuration and operation of Cloud Foundry.", + "name": "gittem-gitlab", + "description": "gittem-gitlab", "permissions": { "licenses": null, "usageType": "openSource", @@ -13367,13 +17188,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-scripts", + "repositoryURL": "https://github.com/18F/gittem-gitlab", "laborHours": 0, "organization": "18F" }, { - "name": "jekyll-get", - "description": "Jekyll plugin to download data from external JSON sources to use in generating a site", + "name": "gittem-view", + "description": "gittem-view", "permissions": { "licenses": null, "usageType": "openSource", @@ -13385,13 +17206,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/jekyll-get", + "repositoryURL": "https://github.com/18F/gittem-view", "laborHours": 0, "organization": "18F" }, { - "name": "cf-ssh", - "description": "SSH into a running container for your Cloud Foundry application, run one-off tasks, debug your app, and more.", + "name": "cg-secureproxy-boshrelease", + "description": "cg-secureproxy-boshrelease", "permissions": { "licenses": null, "usageType": "openSource", @@ -13403,13 +17224,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-ssh", + "repositoryURL": "https://github.com/18F/cg-secureproxy-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "fedspendingtransparency.github.io", - "description": "Federal Spending Transparency", + "name": "e-manifest", + "description": "The EPA e-Manifest project", "permissions": { "licenses": null, "usageType": "openSource", @@ -13421,20 +17242,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fedspendingtransparency.github.io", + "repositoryURL": "https://github.com/18F/e-manifest", "laborHours": 0, "organization": "18F" }, { - "name": "eiti-data", - "description": "[WIP] EITI data and maps for DOI", + "name": "CMS.gov-developer", + "description": "A collaboration with CMS on APIs and Open Source ", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -13444,13 +17260,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/eiti-data", + "repositoryURL": "https://github.com/18F/CMS.gov-developer", "laborHours": 0, "organization": "18F" }, { - "name": "data-act-workshop", - "description": "Code written during the DATA act agile workshop", + "name": "certificate-service", + "description": "Service and scripts to automatically issue and deploy HTTPS certificates.", "permissions": { "licenses": null, "usageType": "openSource", @@ -13462,13 +17278,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-act-workshop", + "repositoryURL": "https://github.com/18F/certificate-service", "laborHours": 0, "organization": "18F" }, { - "name": "slides", - "description": "Slides for 18F - built automatically using Federalist", + "name": "site-data", + "description": "site-data", "permissions": { "licenses": null, "usageType": "openSource", @@ -13480,31 +17296,35 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/slides", + "repositoryURL": "https://github.com/18F/site-data", "laborHours": 0, "organization": "18F" }, { - "name": "rds-service-broker", - "description": "DEPRECATED: an RDS service broker for Cloud Foundry written in Ruby. see:", + "name": "cg-dashboard", + "description": "A web dashboard for managing Cloud Foundry Apps", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "cloud", + "cloud-foundry", + "cloudfoundry", + "gov", + "react" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/rds-service-broker", + "repositoryURL": "https://github.com/18F/cg-dashboard", "laborHours": 0, "organization": "18F" }, { - "name": "myusa-coming-soon", - "description": "[DEPRECATED] A coming soon page for MyUSA", + "name": "edu-accessibility", + "description": "Documents for creating 18F Edu's Accessibility course", "permissions": { "licenses": null, "usageType": "openSource", @@ -13516,13 +17336,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/myusa-coming-soon", + "repositoryURL": "https://github.com/18F/edu-accessibility", "laborHours": 0, "organization": "18F" }, { - "name": "project-monitor-helper", - "description": "A Ruby script that automatically generates the projects.json required by Project Monitor", + "name": "iaa-mvp", + "description": "A(n alpha) site for managing interagency agreements.", "permissions": { "licenses": null, "usageType": "openSource", @@ -13534,13 +17354,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/project-monitor-helper", + "repositoryURL": "https://github.com/18F/iaa-mvp", "laborHours": 0, "organization": "18F" }, { - "name": "cli", - "description": "A CLI for Cloud Foundry written in Go", + "name": "cf-meteor-buildpack", + "description": "Cloud Foundry Meteor Buildpack", "permissions": { "licenses": [ { @@ -13557,31 +17377,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cli", + "repositoryURL": "https://github.com/18F/cf-meteor-buildpack", "laborHours": 0, "organization": "18F" }, { - "name": "analytics-standards", - "description": "WIP: Team standards for implementing website and API analytics.", + "name": "dev-environment", + "description": "Guide to establishing a suitable development environment", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/analytics-standards", + "repositoryURL": "https://github.com/18F/dev-environment", "laborHours": 0, "organization": "18F" }, { - "name": "508-procurement-playbook", - "description": "A draft/work-in-progress playbook for Section 508-friendly procurement", + "name": "data-act-pilot-prototype", + "description": "data-act-pilot-prototype", "permissions": { "licenses": null, "usageType": "openSource", @@ -13593,13 +17413,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/508-procurement-playbook", + "repositoryURL": "https://github.com/18F/data-act-pilot-prototype", "laborHours": 0, "organization": "18F" }, { - "name": "sslmate-cookbook", - "description": "A chef cookbook for installing SSLMate and some optional helper scripts.", + "name": "open-source-guide", + "description": "18F’s Style guide for open source project documentation", "permissions": { "licenses": null, "usageType": "openSource", @@ -13611,20 +17431,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sslmate-cookbook", + "repositoryURL": "https://github.com/18F/open-source-guide", "laborHours": 0, "organization": "18F" }, { - "name": "cloud-foundry-client-js", - "description": "A JavaScript client for Cloud Foundry. Supports running in the browser and Node.js.", + "name": "govconnect", + "description": "govconnect", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -13634,13 +17449,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cloud-foundry-client-js", + "repositoryURL": "https://github.com/18F/govconnect", "laborHours": 0, "organization": "18F" }, { - "name": "fees-and-labor-rates", - "description": "Public repo for collaborative working on 18F's fee and labor rate strategy", + "name": "federalist-content-guide", + "description": "DEPRECIATED/MOVED: A Content Guide for the Federalist Platform", "permissions": { "licenses": null, "usageType": "openSource", @@ -13652,13 +17467,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fees-and-labor-rates", + "repositoryURL": "https://github.com/18F/federalist-content-guide", "laborHours": 0, "organization": "18F" }, { - "name": "autoapi", - "description": "A basic spreadsheet to api engine", + "name": "data-voyage", + "description": "Coordinating some prototypes and experiments in open data.", "permissions": { "licenses": null, "usageType": "openSource", @@ -13670,13 +17485,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/autoapi", + "repositoryURL": "https://github.com/18F/data-voyage", "laborHours": 0, "organization": "18F" }, { - "name": "dol-whd-foh", - "description": "DOL/WHD FOH :point_right:", + "name": "idea-box", + "description": "An application that lets an organization collect ideas, comment on them, and vote them up. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -13688,31 +17503,33 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dol-whd-foh", + "repositoryURL": "https://github.com/18F/idea-box", "laborHours": 0, "organization": "18F" }, { - "name": "guides-template", - "description": "Jekyll template for 18F Guides, based on CFPB/DOCter", + "name": "jekyll_frontmatter_tests", + "description": "A Jekyll plugin to test frontmatter on posts and other documents in a Jekyll site.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "frontmatter", + "jekyll", + "testing" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/guides-template", + "repositoryURL": "https://github.com/18F/jekyll_frontmatter_tests", "laborHours": 0, "organization": "18F" }, { - "name": "pa11y-reporter-ci", - "description": "A pa11y reporter for continuous integration environments ", + "name": "cf-blue-green", + "description": "zero-downtime deployment for Cloud Foundry applications", "permissions": { "licenses": null, "usageType": "openSource", @@ -13724,15 +17541,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pa11y-reporter-ci", + "repositoryURL": "https://github.com/18F/cf-blue-green", "laborHours": 0, "organization": "18F" }, { - "name": "node-sauce-template", - "description": "A Node.js template for cross-browser functional tests with Sauce Labs", + "name": "iaa-mvp-buildpack", + "description": "A bespoke Buildpack for the iaa-mvp application", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -13742,13 +17564,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/node-sauce-template", + "repositoryURL": "https://github.com/18F/iaa-mvp-buildpack", "laborHours": 0, "organization": "18F" }, { - "name": "WMSViewer", - "description": "WMSViewer", + "name": "fec-style", + "description": "DEPRECATED See https://github.com/18F/fec-cms for fec.gov's code", "permissions": { "licenses": null, "usageType": "openSource", @@ -13760,76 +17582,69 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/WMSViewer", + "repositoryURL": "https://github.com/18F/fec-style", "laborHours": 0, "organization": "18F" }, { - "name": "methods", - "description": "The design methods practiced at 18F. This repository includes general descriptions of our methods, how-tos, as well as information for applying these methods on government projects.", + "name": "iaa-pdf-api", + "description": "A lightweight server implementation of the IAA gem", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "design", - "design-methods", - "guide" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/methods", + "repositoryURL": "https://github.com/18F/iaa-pdf-api", "laborHours": 0, "organization": "18F" }, { - "name": "data-act-pilot", - "description": "This small DATA Act pilot contains code that translates agency data to a uniform DATA act format.", + "name": "cg-landing", + "description": "[DEPRECATED] Landing page for cloud.gov. New repo: https://github.com/18F/cg-site", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-act-pilot", + "repositoryURL": "https://github.com/18F/cg-landing", "laborHours": 0, "organization": "18F" }, { - "name": "pages", - "description": "DEPRECATED: Publishing platform for 18F sites a la GitHub pages", + "name": "pa11y-scan", + "description": "pa11y-scan", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "deprecated" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pages", + "repositoryURL": "https://github.com/18F/pa11y-scan", "laborHours": 0, "organization": "18F" }, { - "name": "slackin", - "description": "DEPRECATED: see https://github.com/18F/chat", + "name": "edu", + "description": "Materials pertaining to the 18F Edu segment of the 18F Learn initiative", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -13839,15 +17654,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/slackin", + "repositoryURL": "https://github.com/18F/edu", "laborHours": 0, "organization": "18F" }, { - "name": "jekyll-search-server", - "description": "A standalone search crawler and API for Jekyll sites.", + "name": "ruby-saml", + "description": "SAML SSO for Ruby", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -13857,13 +17677,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/jekyll-search-server", + "repositoryURL": "https://github.com/18F/ruby-saml", "laborHours": 0, "organization": "18F" }, { - "name": "what-is-devops", - "description": "A place for @noahkunin to store presentation materials about devops", + "name": "guides-style", + "description": "18F Guides Template style elements, derived from CFPB/DOCter", "permissions": { "licenses": null, "usageType": "openSource", @@ -13875,13 +17695,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/what-is-devops", + "repositoryURL": "https://github.com/18F/guides-style", "laborHours": 0, "organization": "18F" }, { - "name": "joining-18f", - "description": "A guide for anyone interested in joining the 18F team", + "name": "wg-documentation", + "description": "DEPRECATED: 18F Documentation Working Group resources", "permissions": { "licenses": null, "usageType": "openSource", @@ -13893,13 +17713,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/joining-18f", + "repositoryURL": "https://github.com/18F/wg-documentation", "laborHours": 0, "organization": "18F" }, { - "name": "procurement-glossary", - "description": "A WIP", + "name": "wg-working-groups", + "description": "18F Working Group Working Group", "permissions": { "licenses": null, "usageType": "openSource", @@ -13911,13 +17731,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/procurement-glossary", + "repositoryURL": "https://github.com/18F/wg-working-groups", "laborHours": 0, "organization": "18F" }, { - "name": "lean-product-design", - "description": "A guide to using Lean Product Design on your project", + "name": "connect_vbms", + "description": "++ THIS REPOSITORY WILL BE DELETED ++ see: original repo at department-of-veterans-affairs/connect_vbms", "permissions": { "licenses": null, "usageType": "openSource", @@ -13929,13 +17749,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/lean-product-design", + "repositoryURL": "https://github.com/18F/connect_vbms", "laborHours": 0, "organization": "18F" }, { - "name": "charmander", - "description": "Charmander is a simple template for producing Jekyll static sites using Vagrant, Gulp, Bourbon, Neat, Bitters, and Bower.", + "name": "go_script", + "description": "The `./go` script: a unified development environment interface", "permissions": { "licenses": null, "usageType": "openSource", @@ -13947,13 +17767,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/charmander", + "repositoryURL": "https://github.com/18F/go_script", "laborHours": 0, "organization": "18F" }, { - "name": "polyfill-service", - "description": "Automatic polyfill service", + "name": "pyHappyOrNot", + "description": "A wrapper around the HappyOrNot API.", "permissions": { "licenses": null, "usageType": "openSource", @@ -13965,13 +17785,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/polyfill-service", + "repositoryURL": "https://github.com/18F/pyHappyOrNot", "laborHours": 0, "organization": "18F" }, { - "name": "docker-elasticsearch", - "description": "A Dockerfile and supporting scripts used to build an Elasticsearch 1.5 image which exposes environment variables for basic authentication at runtime.", + "name": "contracting-cookbook", + "description": "Digital Contracting Cookbook", "permissions": { "licenses": null, "usageType": "openSource", @@ -13983,13 +17803,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/docker-elasticsearch", + "repositoryURL": "https://github.com/18F/contracting-cookbook", "laborHours": 0, "organization": "18F" }, { - "name": "hubot-cf-notifications", - "description": "Cloud Foundry notifications for Hubot", + "name": "peek-delayed_job", + "description": "take a peek into your Delayed::Job queue", "permissions": { "licenses": null, "usageType": "openSource", @@ -14001,13 +17821,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hubot-cf-notifications", + "repositoryURL": "https://github.com/18F/peek-delayed_job", "laborHours": 0, "organization": "18F" }, { - "name": "sbirez-prototype", - "description": "Prototype for SBIR-EZ.", + "name": "css-linter", + "description": "A tool provided by the front end guild to help your CSS/Sass conform to the 18F styleguide", "permissions": { "licenses": null, "usageType": "openSource", @@ -14019,13 +17839,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sbirez-prototype", + "repositoryURL": "https://github.com/18F/css-linter", "laborHours": 0, "organization": "18F" }, { - "name": "fec-alpha", - "description": "DEPRICATED ", + "name": "CMS-APIs", + "description": "[WIP] Do you have ideas or requests on how to use or improve CMS APIs? Click on the \"issues\" tab to start a discussion.", "permissions": { "licenses": null, "usageType": "openSource", @@ -14037,20 +17857,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-alpha", + "repositoryURL": "https://github.com/18F/CMS-APIs", "laborHours": 0, "organization": "18F" }, { - "name": "pa11y-dashboard", - "description": "pa11y-dashboard is a web interface which helps you monitor the accessibility of your websites", + "name": "bpa-dash", + "description": "A prototype for a dashboard for agile blanket purchase agreements.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/gpl-3.0", - "name": "GPL-3.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -14060,13 +17875,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pa11y-dashboard", + "repositoryURL": "https://github.com/18F/bpa-dash", "laborHours": 0, "organization": "18F" }, { - "name": "gitter", - "description": "Create a folder of archived git repositories, using a csv to identify which repositories to clone.", + "name": "intake", + "description": "DEPRECATED: This repository previously held information for a pages.18f.gov site about 18F's intake process. 18f.gsa.gov has the info now.", "permissions": { "licenses": null, "usageType": "openSource", @@ -14078,13 +17893,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/gitter", + "repositoryURL": "https://github.com/18F/intake", "laborHours": 0, "organization": "18F" }, { - "name": "ekip", - "description": "Every Kid in a Park", + "name": "fr-notices", + "description": "This repo is deprecated. Use: ", "permissions": { "licenses": null, "usageType": "openSource", @@ -14096,13 +17911,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ekip", + "repositoryURL": "https://github.com/18F/fr-notices", "laborHours": 0, "organization": "18F" }, { - "name": "cf-hello-worlds", - "description": "Hello World apps for Cloud Foundry", + "name": "about_yml", + "description": ".about.yml project metadata schema and tools", "permissions": { "licenses": null, "usageType": "openSource", @@ -14114,13 +17929,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-hello-worlds", + "repositoryURL": "https://github.com/18F/about_yml", "laborHours": 0, "organization": "18F" }, { - "name": "cg-quotas-db", - "description": "Lightweight Flask app for storing Cloud Foundry quotas data ", + "name": "team_api", + "description": "A gem for compiling information about team members, projects, etc. and exposing it via a JSON API.", "permissions": { "licenses": null, "usageType": "openSource", @@ -14132,13 +17947,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-quotas-db", + "repositoryURL": "https://github.com/18F/team_api", "laborHours": 0, "organization": "18F" }, { - "name": "data-act-csv-export", - "description": "data-act-csv-export", + "name": "elk-docker", + "description": "Elasticsearch, Logstash, Kibana (ELK) Docker image", "permissions": { "licenses": null, "usageType": "openSource", @@ -14150,13 +17965,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-act-csv-export", + "repositoryURL": "https://github.com/18F/elk-docker", "laborHours": 0, "organization": "18F" }, { - "name": "ekip-api", - "description": "The source for the Every Kid in a Park website. ", + "name": "tech-talks", + "description": "Where to find the schedule, slides and videos for 18F's monthly tech talks", "permissions": { "licenses": null, "usageType": "openSource", @@ -14168,15 +17983,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ekip-api", + "repositoryURL": "https://github.com/18F/tech-talks", "laborHours": 0, "organization": "18F" }, { - "name": "record-locator", - "description": "Generate a safe record locator (used for ticketing systems). ", + "name": "usps", + "description": "USPS Webtools API for Ruby", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -14186,13 +18006,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/record-locator", + "repositoryURL": "https://github.com/18F/usps", "laborHours": 0, "organization": "18F" }, { - "name": "billing-tools", - "description": "billing tools/scripts for AWS", + "name": "epa-emanifest-data", + "description": "This is scratch pad repo for data format recommendations. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -14204,13 +18024,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/billing-tools", + "repositoryURL": "https://github.com/18F/epa-emanifest-data", "laborHours": 0, "organization": "18F" }, { - "name": "education-compliance-reports", - "description": "education-compliance-reports", + "name": "e-manifest-cromerr-client", + "description": "Simple client to exercise the CDX/CROMERR APIs", "permissions": { "licenses": null, "usageType": "openSource", @@ -14222,31 +18042,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/education-compliance-reports", + "repositoryURL": "https://github.com/18F/e-manifest-cromerr-client", "laborHours": 0, "organization": "18F" }, { - "name": "military-onesource-federalist", - "description": "Testing Military OneSource on Federalist", + "name": "federalist-modern-team-template", + "description": "This is a Jekyll site. It is a simple site to showcase the work of an organization with a few different page types.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "federalist-template" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/military-onesource-federalist", + "repositoryURL": "https://github.com/18F/federalist-modern-team-template", "laborHours": 0, "organization": "18F" }, { - "name": "citysdk-innov-district", - "description": "CitySDK Data Workshop -- Innovation District Showcase Dashboard", + "name": "file-locked-operation", + "description": "A NodeJS package for file-locked operations", "permissions": { "licenses": null, "usageType": "openSource", @@ -14258,13 +18078,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/citysdk-innov-district", + "repositoryURL": "https://github.com/18F/file-locked-operation", "laborHours": 0, "organization": "18F" }, { - "name": "github-dashing", - "description": "Dashboard to monitor the health of github projects based on their contribution statistics, based on the \"Dashing\" framework", + "name": "atf-eregs", + "description": "Container and styles for an ATF eRegs instance", "permissions": { "licenses": null, "usageType": "openSource", @@ -14276,41 +18096,33 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/github-dashing", + "repositoryURL": "https://github.com/18F/atf-eregs", "laborHours": 0, "organization": "18F" }, { - "name": "web-design-standards", - "description": "Open source UI components and visual style guide for U.S. government websites.", + "name": "cf-service-proxy", + "description": "Create a proxy for Cloud Foundry service instances.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "design", - "design-systems", - "government", - "uswds" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/web-design-standards", + "repositoryURL": "https://github.com/18F/cf-service-proxy", "laborHours": 0, "organization": "18F" }, { - "name": "angular-livesearch", - "description": "An angular directive for auto-completing", + "name": "osbu-forecast", + "description": "DEPRECATED -- use forecast", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -14320,13 +18132,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/angular-livesearch", + "repositoryURL": "https://github.com/18F/osbu-forecast", "laborHours": 0, "organization": "18F" }, { - "name": "jekyll_pages_api_search", - "description": "Jekyll search plugin based on lunr.js and jekyll_pages_api", + "name": "cf-events", + "description": "Cloud.gov Events Data Store", "permissions": { "licenses": null, "usageType": "openSource", @@ -14338,13 +18150,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/jekyll_pages_api_search", + "repositoryURL": "https://github.com/18F/cf-events", "laborHours": 0, "organization": "18F" }, { - "name": "collector", - "description": "collector", + "name": "lambda_map_reduce", + "description": "A MapReduce implementation for use with lambdas", "permissions": { "licenses": null, "usageType": "openSource", @@ -14356,20 +18168,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/collector", + "repositoryURL": "https://github.com/18F/lambda_map_reduce", "laborHours": 0, "organization": "18F" }, { - "name": "cg-cf-release", - "description": "[DEPRECATED] 18F Cloud Foundry Bosh Release for customizations", + "name": "development-guide", + "description": "A set of guidelines and best practices for an awesome engineering team", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -14379,13 +18186,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-cf-release", + "repositoryURL": "https://github.com/18F/development-guide", "laborHours": 0, "organization": "18F" }, { - "name": "agile-solicitation-builder", - "description": "This repository is archived and deprecated. Please see the USDS Agile Solicitation Builder for current updates. ", + "name": "qna", + "description": "WIP QnA platform", "permissions": { "licenses": null, "usageType": "openSource", @@ -14397,31 +18204,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/agile-solicitation-builder", + "repositoryURL": "https://github.com/18F/qna", "laborHours": 0, "organization": "18F" }, { - "name": "federalist", - "description": "Federalist is a unified interface for publishing static government websites.", + "name": "pdf-forms-tutorial", + "description": "A step-by-step guide for programatically filling out PDF forms", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "federalist" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist", + "repositoryURL": "https://github.com/18F/pdf-forms-tutorial", "laborHours": 0, "organization": "18F" }, { - "name": "jekyll-data-migrate", - "description": "jekyll-data-migrate", + "name": "dolores-landingham-slack-bot", + "description": "A Slack bot to welcome new 18F hires with the authority and compassion of Mrs. Landingham", "permissions": { "licenses": null, "usageType": "openSource", @@ -14433,13 +18240,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/jekyll-data-migrate", + "repositoryURL": "https://github.com/18F/dolores-landingham-slack-bot", "laborHours": 0, "organization": "18F" }, { - "name": "ads-bpa", - "description": "A guide for the Agile Delivery Services BPA", + "name": "risk-management-framework", + "description": "ATO framework", "permissions": { "licenses": null, "usageType": "openSource", @@ -14451,13 +18258,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ads-bpa", + "repositoryURL": "https://github.com/18F/risk-management-framework", "laborHours": 0, "organization": "18F" }, { - "name": "django-pyodbc", - "description": "An ODBC-powered MS SQL Server DB backend for Django 1.4+", + "name": "dol-form226-validator", + "description": "A proof of concept tool to validate data to be input into a Form 226 application for the 14(c) program", "permissions": { "licenses": null, "usageType": "openSource", @@ -14469,31 +18276,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-pyodbc", + "repositoryURL": "https://github.com/18F/dol-form226-validator", "laborHours": 0, "organization": "18F" }, { - "name": "django-pyodbc-access", - "description": "Django Access MDB file database backend. Yes, seriously.", + "name": "peacecorps-site", + "description": "A place to think and work on a new Peace Corps website.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-pyodbc-access", + "repositoryURL": "https://github.com/18F/peacecorps-site", "laborHours": 0, "organization": "18F" }, { - "name": "swagger-ui", - "description": "Swagger UI is a dependency-free collection of HTML, Javascript, and CSS assets that dynamically generate beautiful documentation from a Swagger-compliant API.", + "name": "peace-corps-infrastructure", + "description": "peace-corps-infrastructure", "permissions": { "licenses": null, "usageType": "openSource", @@ -14505,31 +18312,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/swagger-ui", + "repositoryURL": "https://github.com/18F/peace-corps-infrastructure", "laborHours": 0, "organization": "18F" }, { - "name": "data-act-usaspending", - "description": "The DATA Act version of USAspending.gov.", + "name": "letgirlslearn", + "description": "A Jekyll-powered microsite, live at https://letgirlslearn.peacecorps.gov", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-act-usaspending", + "repositoryURL": "https://github.com/18F/letgirlslearn", "laborHours": 0, "organization": "18F" }, { - "name": "cf-provision-user-space-plugin", - "description": "Cloud Foundry CLI plugin to create users", + "name": "cg-s3-proxy", + "description": "A simple nginx proxy for S3 website buckets", "permissions": { "licenses": null, "usageType": "openSource", @@ -14541,13 +18348,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-provision-user-space-plugin", + "repositoryURL": "https://github.com/18F/cg-s3-proxy", "laborHours": 0, "organization": "18F" }, { - "name": "open-data-maker", - "description": "make it easy to turn a lot of potentially large csv files into easily accessible open data", + "name": "cf-gitaware", + "description": "WORK IN PROGRESS: Cloud Foundry CLI plugin to include Git metadata on push", "permissions": { "licenses": null, "usageType": "openSource", @@ -14559,13 +18366,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/open-data-maker", + "repositoryURL": "https://github.com/18F/cf-gitaware", "laborHours": 0, "organization": "18F" }, { - "name": "myusa-rails-example", - "description": "DEPRECATED: An example Rails app that connects to MyUSA", + "name": "linkify-citations", + "description": "Turns legal citations in the DOM into links", "permissions": { "licenses": null, "usageType": "openSource", @@ -14577,13 +18384,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/myusa-rails-example", + "repositoryURL": "https://github.com/18F/linkify-citations", "laborHours": 0, "organization": "18F" }, { - "name": "wg-testing", - "description": "18F Testing Grouplet", + "name": "forecast", + "description": "A contracting opportunities forecasting tool (beta)", "permissions": { "licenses": null, "usageType": "openSource", @@ -14595,37 +18402,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-testing", + "repositoryURL": "https://github.com/18F/forecast", "laborHours": 0, "organization": "18F" }, { - "name": "web-design-standards-assets", - "description": "U.S. Web Design Standards visual design assets", + "name": "cf-elk-proxy", + "description": "Procedure for deploying an ELK service container to provide durable logging for Cloud Foundry applications.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "eps", - "government", - "illustrator", - "omnigraffle", - "stencil", - "symbols", - "uswds" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/web-design-standards-assets", + "repositoryURL": "https://github.com/18F/cf-elk-proxy", "laborHours": 0, "organization": "18F" }, { - "name": "devops-assessment", - "description": "Evaluating DevOps capability (ARCHIVED)", + "name": "joining-18f-app", + "description": "A version of the 18F application form. The current live version's repo is 18F/joining-18f.", "permissions": { "licenses": null, "usageType": "openSource", @@ -14637,13 +18438,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/devops-assessment", + "repositoryURL": "https://github.com/18F/joining-18f-app", "laborHours": 0, "organization": "18F" }, { - "name": "iaa-gem", - "description": "A Ruby gem for reading and writing Interagency Agreement PDFs", + "name": "pages-server", + "description": "DEPRECATED: Static website publishing server for 18F Pages", "permissions": { "licenses": null, "usageType": "openSource", @@ -14655,20 +18456,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/iaa-gem", + "repositoryURL": "https://github.com/18F/pages-server", "laborHours": 0, "organization": "18F" }, { - "name": "hookshot", - "description": "Hookshot is a tiny library and companion CLI tool for handling GitHub post-receive hooks.", + "name": "lumbergh", + "description": "WIP: 18F's automated access management automaton", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -14678,13 +18474,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hookshot", + "repositoryURL": "https://github.com/18F/lumbergh", "laborHours": 0, "organization": "18F" }, { - "name": "design-principles-guide", - "description": "design-principles-guide", + "name": "github-webhook-validator", + "description": "Express middleware validator for GitHub webhooks", "permissions": { "licenses": null, "usageType": "openSource", @@ -14696,20 +18492,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/design-principles-guide", + "repositoryURL": "https://github.com/18F/github-webhook-validator", "laborHours": 0, "organization": "18F" }, { - "name": "django-pgjson", - "description": "PostgreSQL json field support for Django", + "name": "3d-files", + "description": "A sandbox for experimenting with 3D files", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/bsd-3-clause", - "name": "BSD-3-Clause" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -14719,20 +18510,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-pgjson", + "repositoryURL": "https://github.com/18F/3d-files", "laborHours": 0, "organization": "18F" }, { - "name": "jekyll", - "description": "Jekyll is a blog-aware, static site generator in Ruby", + "name": "feedback-widget", + "description": "experiment in creating an embeddable feedback widget", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -14742,13 +18528,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/jekyll", + "repositoryURL": "https://github.com/18F/feedback-widget", "laborHours": 0, "organization": "18F" }, { - "name": "noaabigdata-code", - "description": "code to help move data to the cloud from NOAA sources", + "name": "oauth2_proxy_authentication_gem", + "description": "Authenticates requests from bitly/oauth2_proxy using HMAC signatures", "permissions": { "licenses": null, "usageType": "openSource", @@ -14760,20 +18546,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/noaabigdata-code", + "repositoryURL": "https://github.com/18F/oauth2_proxy_authentication_gem", "laborHours": 0, "organization": "18F" }, - { - "name": "guard-rspec", - "description": "Guard::RSpec automatically run your specs (much like autotest)", - "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + { + "name": "oauth2-proxy-authentication-npm", + "description": "Authenticates requests from bitly/oauth2_proxy using HMAC signatures", + "permissions": { + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -14783,38 +18564,33 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/guard-rspec", + "repositoryURL": "https://github.com/18F/oauth2-proxy-authentication-npm", "laborHours": 0, "organization": "18F" }, { - "name": "cg-cron", - "description": "[DEPRECATED] Run cron jobs in a Cloud Foundry app.", + "name": "hmac-authentication-npm", + "description": "Signs and authenticates HTTP requests based on a shared-secret HMAC signature", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "deprecated" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-cron", + "repositoryURL": "https://github.com/18F/hmac-authentication-npm", "laborHours": 0, "organization": "18F" }, { - "name": "json", - "description": "Minor customizations for Python standard library's `json` module", + "name": "hmac_authentication_gem", + "description": "Signs and authenticates HTTP requests based on a shared-secret HMAC signature", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -14824,13 +18600,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/json", + "repositoryURL": "https://github.com/18F/hmac_authentication_gem", "laborHours": 0, "organization": "18F" }, { - "name": "case-study-guide", - "description": "This guide will provide guidance on the creation, publishing, and sharing of 18F case studies.", + "name": "hmacauth", + "description": "Signs and authenticates HTTP requests based on a shared-secret HMAC signature", "permissions": { "licenses": null, "usageType": "openSource", @@ -14842,13 +18618,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/case-study-guide", + "repositoryURL": "https://github.com/18F/hmacauth", "laborHours": 0, "organization": "18F" }, { - "name": "iaa-forms", - "description": "Forms for filing interagency agreements", + "name": "cg-metrics", + "description": "cg-metrics", "permissions": { "licenses": null, "usageType": "openSource", @@ -14860,13 +18636,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/iaa-forms", + "repositoryURL": "https://github.com/18F/cg-metrics", "laborHours": 0, "organization": "18F" }, { - "name": "content-guide", - "description": "18F Content Guide", + "name": "hmacproxy", + "description": "Proxy server that signs and authenticates HTTP requests using an HMAC signature", "permissions": { "licenses": null, "usageType": "openSource", @@ -14878,54 +18654,54 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/content-guide", + "repositoryURL": "https://github.com/18F/hmacproxy", "laborHours": 0, "organization": "18F" }, { - "name": "voyage", - "description": "Allow anyone with a modern browser to stream a 1GB, 10GB, 100GB, or 1TB file over the Internet and into a happy home.", + "name": "cg-uaa", + "description": "DEPRECATED / DO NOT USE. This repo contains an old version of UAA with known security vulnerabilities. Use the upstream version", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" } ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/voyage", + "repositoryURL": "https://github.com/18F/cg-uaa", "laborHours": 0, "organization": "18F" }, { - "name": "gittem-gitlab", - "description": "gittem-gitlab", + "name": "brand", + "description": "18F Brand", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "brand" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/gittem-gitlab", + "repositoryURL": "https://github.com/18F/brand", "laborHours": 0, "organization": "18F" }, { - "name": "gittem-view", - "description": "gittem-view", + "name": "labor-viz", + "description": "experiment in visualization of 18F labor data", "permissions": { "licenses": null, "usageType": "openSource", @@ -14937,13 +18713,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/gittem-view", + "repositoryURL": "https://github.com/18F/labor-viz", "laborHours": 0, "organization": "18F" }, { - "name": "cg-secureproxy-boshrelease", - "description": "cg-secureproxy-boshrelease", + "name": "hmac_authentication_py", + "description": "Signs and authenticates HTTP requests based on a shared-secret HMAC signature", "permissions": { "licenses": null, "usageType": "openSource", @@ -14955,13 +18731,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-secureproxy-boshrelease", + "repositoryURL": "https://github.com/18F/hmac_authentication_py", "laborHours": 0, "organization": "18F" }, { - "name": "e-manifest", - "description": "The EPA e-Manifest project", + "name": "micropurchase", + "description": "18F's micro-purchase threshold experiment management app.", "permissions": { "licenses": null, "usageType": "openSource", @@ -14973,13 +18749,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/e-manifest", + "repositoryURL": "https://github.com/18F/micropurchase", "laborHours": 0, "organization": "18F" }, { - "name": "CMS.gov-developer", - "description": "A collaboration with CMS on APIs and Open Source ", + "name": "SEC.gov-developer", + "description": "A collaboration with SEC on APIs and Open Source", "permissions": { "licenses": null, "usageType": "openSource", @@ -14991,31 +18767,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/CMS.gov-developer", + "repositoryURL": "https://github.com/18F/SEC.gov-developer", "laborHours": 0, "organization": "18F" }, { - "name": "certificate-service", - "description": "Service and scripts to automatically issue and deploy HTTPS certificates.", + "name": "federalist-garden-build", + "description": "A container image that builds static sites as part of the Federalist platform", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "federalist" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/certificate-service", + "repositoryURL": "https://github.com/18F/federalist-garden-build", "laborHours": 0, "organization": "18F" }, { - "name": "site-data", - "description": "site-data", + "name": "authdelegate", + "description": "Server that routes requests to multiple authentication servers", "permissions": { "licenses": null, "usageType": "openSource", @@ -15027,35 +18803,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/site-data", + "repositoryURL": "https://github.com/18F/authdelegate", "laborHours": 0, "organization": "18F" }, { - "name": "cg-dashboard", - "description": "A web dashboard for managing Cloud Foundry Apps", + "name": "code-style-guide", + "description": "Centralized collection of style guides and linter information for 18F backend development.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "cloud", - "cloud-foundry", - "cloudfoundry", - "gov", - "react" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-dashboard", + "repositoryURL": "https://github.com/18F/code-style-guide", "laborHours": 0, "organization": "18F" }, { - "name": "edu-accessibility", - "description": "Documents for creating 18F Edu's Accessibility course", + "name": "devops-workshop", + "description": "devops-workshop", "permissions": { "licenses": null, "usageType": "openSource", @@ -15067,13 +18844,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/edu-accessibility", + "repositoryURL": "https://github.com/18F/devops-workshop", "laborHours": 0, "organization": "18F" }, { - "name": "iaa-mvp", - "description": "A(n alpha) site for managing interagency agreements.", + "name": "authentication", + "description": "18F authentication guide (DRAFT)", "permissions": { "licenses": null, "usageType": "openSource", @@ -15085,20 +18862,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/iaa-mvp", + "repositoryURL": "https://github.com/18F/authentication", "laborHours": 0, "organization": "18F" }, { - "name": "cf-meteor-buildpack", - "description": "Cloud Foundry Meteor Buildpack", + "name": "compliancelib-python", + "description": "Machine readable cybersecurity compliance standards library for Python, starting with FISMA and NIST Risk Management Framework", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -15108,31 +18880,54 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-meteor-buildpack", + "repositoryURL": "https://github.com/18F/compliancelib-python", "laborHours": 0, "organization": "18F" }, { - "name": "dev-environment", - "description": "Guide to establishing a suitable development environment", + "name": "team-api-server", + "description": "Imports and publishes updates to Team API data", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dev-environment", + "repositoryURL": "https://github.com/18F/team-api-server", "laborHours": 0, "organization": "18F" }, { - "name": "data-act-pilot-prototype", - "description": "data-act-pilot-prototype", + "name": "prosemirror", + "description": "The ProseMirror WYSIWYM editor", + "permissions": { + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/prosemirror", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "wg-agiledesign", + "description": "(DEPRECATED) Agile Design Working Group", "permissions": { "licenses": null, "usageType": "openSource", @@ -15144,13 +18939,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-act-pilot-prototype", + "repositoryURL": "https://github.com/18F/wg-agiledesign", "laborHours": 0, "organization": "18F" }, { - "name": "open-source-guide", - "description": "18F’s Style guide for open source project documentation", + "name": "glossary", + "description": "A glossary panel for your site to help readers understand jargon", "permissions": { "licenses": null, "usageType": "openSource", @@ -15162,20 +18957,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/open-source-guide", + "repositoryURL": "https://github.com/18F/glossary", "laborHours": 0, "organization": "18F" }, { - "name": "govconnect", - "description": "govconnect", + "name": "micropurchase-temp", + "description": "Temp repository for the rails version", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -15185,13 +18975,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/govconnect", + "repositoryURL": "https://github.com/18F/micropurchase-temp", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-content-guide", - "description": "DEPRECIATED/MOVED: A Content Guide for the Federalist Platform", + "name": "partnership-playbook", + "description": "Guide to help agencies understand what it means to work with 18F. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -15203,13 +18993,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-content-guide", + "repositoryURL": "https://github.com/18F/partnership-playbook", "laborHours": 0, "organization": "18F" }, { - "name": "data-voyage", - "description": "Coordinating some prototypes and experiments in open data.", + "name": "handbook-urls", + "description": "DEPRECATED: A URL shortener to use in conjunction with our 18F Handbook", "permissions": { "licenses": null, "usageType": "openSource", @@ -15221,20 +19011,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-voyage", + "repositoryURL": "https://github.com/18F/handbook-urls", "laborHours": 0, "organization": "18F" }, { - "name": "idea-box", - "description": "An application that lets an organization collect ideas, comment on them, and vote them up. ", + "name": "web-design-standards-drupal", + "description": "A Drupal base theme that uses the U.S. Web Design Standards", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -15244,33 +19029,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/idea-box", + "repositoryURL": "https://github.com/18F/web-design-standards-drupal", "laborHours": 0, "organization": "18F" }, { - "name": "jekyll_frontmatter_tests", - "description": "A Jekyll plugin to test frontmatter on posts and other documents in a Jekyll site.", + "name": "us_web_design_standards_gem", + "description": "Packages the U.S. Web Design Standards assets as a Ruby Gem for use in a Jekyll project", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "frontmatter", - "jekyll", - "testing" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/jekyll_frontmatter_tests", + "repositoryURL": "https://github.com/18F/us_web_design_standards_gem", "laborHours": 0, "organization": "18F" }, { - "name": "cf-blue-green", - "description": "zero-downtime deployment for Cloud Foundry applications", + "name": "cg-sandbox-bot", + "description": "Automatically create sandbox spaces for whitelisted users", "permissions": { "licenses": null, "usageType": "openSource", @@ -15282,20 +19065,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-blue-green", + "repositoryURL": "https://github.com/18F/cg-sandbox-bot", "laborHours": 0, "organization": "18F" }, { - "name": "iaa-mvp-buildpack", - "description": "A bespoke Buildpack for the iaa-mvp application", + "name": "federalist-builder", + "description": "This application is used to launch build tasks for Federalist in an AWS ECS Docker container based on messages from an AWS SQS queue", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -15305,31 +19083,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/iaa-mvp-buildpack", + "repositoryURL": "https://github.com/18F/federalist-builder", "laborHours": 0, "organization": "18F" }, { - "name": "fec-style", - "description": "Shared styles and user interface components for the new FEC.gov", + "name": "confidential-survey", + "description": "A Rails app for conducting confidential surveys without violating user privacy", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-style", + "repositoryURL": "https://github.com/18F/confidential-survey", "laborHours": 0, "organization": "18F" }, { - "name": "iaa-pdf-api", - "description": "A lightweight server implementation of the IAA gem", + "name": "sheet-to-csv", + "description": "DEPRECATED: Use https://github.com/18F/gapps-download instead", "permissions": { "licenses": null, "usageType": "openSource", @@ -15341,13 +19119,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/iaa-pdf-api", + "repositoryURL": "https://github.com/18F/sheet-to-csv", "laborHours": 0, "organization": "18F" }, { - "name": "cg-landing", - "description": "[DEPRECATED] Landing page for cloud.gov. New repo: https://github.com/18F/cg-site", + "name": "infrastructure-modernization", + "description": "Documentation of a plan to take an agency into using a cloud-based infrastructure. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -15359,13 +19137,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-landing", + "repositoryURL": "https://github.com/18F/infrastructure-modernization", "laborHours": 0, "organization": "18F" }, { - "name": "pa11y-scan", - "description": "pa11y-scan", + "name": "gapps-download", + "description": "CLI downloading for google documents", "permissions": { "licenses": null, "usageType": "openSource", @@ -15377,15 +19155,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pa11y-scan", + "repositoryURL": "https://github.com/18F/gapps-download", "laborHours": 0, "organization": "18F" }, { - "name": "edu", - "description": "Materials pertaining to the 18F Edu segment of the 18F Learn initiative", + "name": "frstack", + "description": "Ansible / Vagrant scripts to stand up the ForgeRock Open Identity Stack (OpenAM, OpenIDM, OpenDJ)", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -15395,20 +19178,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/edu", + "repositoryURL": "https://github.com/18F/frstack", "laborHours": 0, "organization": "18F" }, { - "name": "ruby-saml", - "description": "SAML SSO for Ruby", + "name": "cg-compliance", + "description": "OUT OF DATE: OpenControl content for cloud.gov", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -15418,13 +19196,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ruby-saml", + "repositoryURL": "https://github.com/18F/cg-compliance", "laborHours": 0, "organization": "18F" }, { - "name": "fec-cms", - "description": "The content management system (CMS) for the new Federal Election Commission website.", + "name": "wg-api", + "description": "Projects and materials of the API working group. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -15436,15 +19214,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-cms", + "repositoryURL": "https://github.com/18F/wg-api", "laborHours": 0, "organization": "18F" }, { - "name": "guides-style", - "description": "18F Guides Template style elements, derived from CFPB/DOCter", + "name": "cg-release", + "description": "Cloud Foundry Release", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -15454,13 +19237,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/guides-style", + "repositoryURL": "https://github.com/18F/cg-release", "laborHours": 0, "organization": "18F" }, { - "name": "wg-documentation", - "description": "DEPRECATED: 18F Documentation Working Group resources", + "name": "onboarding-documents", + "description": "Forms, emails, and checklists to help with onboarding", "permissions": { "licenses": null, "usageType": "openSource", @@ -15472,15 +19255,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-documentation", + "repositoryURL": "https://github.com/18F/onboarding-documents", "laborHours": 0, "organization": "18F" }, { - "name": "wg-working-groups", - "description": "18F Working Group Working Group", + "name": "emoji_search", + "description": "A super simple commandline utility to search for slack messages that have been reacted to with a specific emoji", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -15490,13 +19278,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-working-groups", + "repositoryURL": "https://github.com/18F/emoji_search", "laborHours": 0, "organization": "18F" }, { - "name": "connect_vbms", - "description": "++ THIS REPOSITORY WILL BE DELETED ++ see: original repo at department-of-veterans-affairs/connect_vbms", + "name": "digital-team-playbook", + "description": "This playbook introduces you to the various aspects of standing up a digital services team within your organization. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -15508,13 +19296,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/connect_vbms", + "repositoryURL": "https://github.com/18F/digital-team-playbook", "laborHours": 0, "organization": "18F" }, { - "name": "go_script", - "description": "The `./go` script: a unified development environment interface", + "name": "death-star", + "description": "current landing place for 18f's forthcoming back office solution.", "permissions": { "licenses": null, "usageType": "openSource", @@ -15526,13 +19314,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/go_script", + "repositoryURL": "https://github.com/18F/death-star", "laborHours": 0, "organization": "18F" }, { - "name": "pyHappyOrNot", - "description": "A wrapper around the HappyOrNot API.", + "name": "minion-nessus-plugin", + "description": "A Minion plugin to run Nessus scans via the REST API", "permissions": { "licenses": null, "usageType": "openSource", @@ -15544,13 +19332,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pyHappyOrNot", + "repositoryURL": "https://github.com/18F/minion-nessus-plugin", "laborHours": 0, "organization": "18F" }, { - "name": "contracting-cookbook", - "description": "Digital Contracting Cookbook", + "name": "cg-stats-scripts", + "description": "A collection of scripts to gather information about the cloud.gov environment. Useful for making user centered design decisions", "permissions": { "licenses": null, "usageType": "openSource", @@ -15562,13 +19350,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/contracting-cookbook", + "repositoryURL": "https://github.com/18F/cg-stats-scripts", "laborHours": 0, "organization": "18F" }, { - "name": "peek-delayed_job", - "description": "take a peek into your Delayed::Job queue", + "name": "discussions", + "description": "To think through questions together. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -15580,13 +19368,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/peek-delayed_job", + "repositoryURL": "https://github.com/18F/discussions", "laborHours": 0, "organization": "18F" }, { - "name": "css-linter", - "description": "A tool provided by the front end guild to help your CSS/Sass conform to the 18F styleguide", + "name": "dev-environment-standardization", + "description": "Guide to configuring standard language and operating system environments for software development", "permissions": { "licenses": null, "usageType": "openSource", @@ -15598,13 +19386,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/css-linter", + "repositoryURL": "https://github.com/18F/dev-environment-standardization", "laborHours": 0, "organization": "18F" }, { - "name": "CMS-APIs", - "description": "[WIP] Do you have ideas or requests on how to use or improve CMS APIs? Click on the \"issues\" tab to start a discussion.", + "name": "g-content", + "description": "18F Content Guild", "permissions": { "licenses": null, "usageType": "openSource", @@ -15616,13 +19404,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/CMS-APIs", + "repositoryURL": "https://github.com/18F/g-content", "laborHours": 0, "organization": "18F" }, { - "name": "bpa-dash", - "description": "A prototype for a dashboard for agile blanket purchase agreements.", + "name": "discover-our-work", + "description": "We want to make it easy for people to find and filter 18F projects in different ways", "permissions": { "licenses": null, "usageType": "openSource", @@ -15634,13 +19422,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bpa-dash", + "repositoryURL": "https://github.com/18F/discover-our-work", "laborHours": 0, "organization": "18F" }, { - "name": "intake", - "description": "DEPRECATED: This repository previously held information for a pages.18f.gov site about 18F's intake process. 18f.gsa.gov has the info now.", + "name": "wg-diversity", + "description": "18F Diversity Working Group", "permissions": { "licenses": null, "usageType": "openSource", @@ -15652,20 +19440,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/intake", + "repositoryURL": "https://github.com/18F/wg-diversity", "laborHours": 0, "organization": "18F" }, { - "name": "fr-notices", - "description": "This repo is deprecated. Use: ", + "name": "wg-dataservices", + "description": "18F Data Science Working Group", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -15675,13 +19458,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fr-notices", + "repositoryURL": "https://github.com/18F/wg-dataservices", "laborHours": 0, "organization": "18F" }, { - "name": "about_yml", - "description": ".about.yml project metadata schema and tools", + "name": "angrytock", + "description": "slackbot slapbot for tock", "permissions": { "licenses": null, "usageType": "openSource", @@ -15693,13 +19476,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/about_yml", + "repositoryURL": "https://github.com/18F/angrytock", "laborHours": 0, "organization": "18F" }, { - "name": "team_api", - "description": "A gem for compiling information about team members, projects, etc. and exposing it via a JSON API.", + "name": "cg-pipelines", + "description": "DEPRECATED: Concourse pipelines for the 18F Cloud Foundry deployment. (moved to separate repositories)", "permissions": { "licenses": null, "usageType": "openSource", @@ -15711,13 +19494,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/team_api", + "repositoryURL": "https://github.com/18F/cg-pipelines", "laborHours": 0, "organization": "18F" }, { - "name": "elk-docker", - "description": "Elasticsearch, Logstash, Kibana (ELK) Docker image", + "name": "discourse", + "description": "A platform for community discussion. Free, open, simple.", "permissions": { "licenses": null, "usageType": "openSource", @@ -15729,13 +19512,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/elk-docker", + "repositoryURL": "https://github.com/18F/discourse", "laborHours": 0, "organization": "18F" }, { - "name": "tech-talks", - "description": "Where to find the schedule, slides and videos for 18F's monthly tech talks", + "name": "compliance-toolkit", + "description": "Compliance at the speed of Delivery.", "permissions": { "licenses": null, "usageType": "openSource", @@ -15747,18 +19530,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tech-talks", + "repositoryURL": "https://github.com/18F/compliance-toolkit", "laborHours": 0, "organization": "18F" }, { - "name": "usps", - "description": "USPS Webtools API for Ruby", + "name": "minion-vm", + "description": "Vagrantfile and Dockerfiles that help make minion development and deployment far easier", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" + "URL": "https://api.github.com/licenses/mpl-2.0", + "name": "MPL-2.0" } ], "usageType": "openSource", @@ -15770,13 +19553,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/usps", + "repositoryURL": "https://github.com/18F/minion-vm", "laborHours": 0, "organization": "18F" }, { - "name": "epa-emanifest-data", - "description": "This is scratch pad repo for data format recommendations. ", + "name": "accordion", + "description": "A simple, 508 compliant JavaScript accordion", "permissions": { "licenses": null, "usageType": "openSource", @@ -15788,13 +19571,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/epa-emanifest-data", + "repositoryURL": "https://github.com/18F/accordion", "laborHours": 0, "organization": "18F" }, { - "name": "e-manifest-cromerr-client", - "description": "Simple client to exercise the CDX/CROMERR APIs", + "name": "docker-ruby-ubuntu", + "description": "docker-ruby-ubuntu", "permissions": { "licenses": null, "usageType": "openSource", @@ -15806,31 +19589,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/e-manifest-cromerr-client", + "repositoryURL": "https://github.com/18F/docker-ruby-ubuntu", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-modern-team-template", - "description": "This is a Jekyll site. It is a simple site to showcase the work of an organization with a few different page types.", + "name": "about-yml-validator", + "description": ".about.yml project metadata schema and tools", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "federalist-template" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-modern-team-template", + "repositoryURL": "https://github.com/18F/about-yml-validator", "laborHours": 0, "organization": "18F" }, { - "name": "file-locked-operation", - "description": "A NodeJS package for file-locked operations", + "name": "feedback.js", + "description": "github feedback widget", "permissions": { "licenses": null, "usageType": "openSource", @@ -15842,13 +19625,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/file-locked-operation", + "repositoryURL": "https://github.com/18F/feedback.js", "laborHours": 0, "organization": "18F" }, { - "name": "atf-eregs", - "description": "Container and styles for an ATF eRegs instance", + "name": "zap-core-help", + "description": "The help files for the OWASP ZAP core", "permissions": { "licenses": null, "usageType": "openSource", @@ -15860,15 +19643,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/atf-eregs", + "repositoryURL": "https://github.com/18F/zap-core-help", "laborHours": 0, "organization": "18F" }, { - "name": "cf-service-proxy", - "description": "Create a proxy for Cloud Foundry service instances.", + "name": "github-issue-lifecycle", + "description": "Serve data on lifecycle (open -> milestones -> close) of a repo's issues", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -15878,13 +19666,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-service-proxy", + "repositoryURL": "https://github.com/18F/github-issue-lifecycle", "laborHours": 0, "organization": "18F" }, { - "name": "osbu-forecast", - "description": "DEPRECATED -- use forecast", + "name": "how-to-deploy", + "description": "Guides on how to deploy open source projects to Cloud Foundry", "permissions": { "licenses": null, "usageType": "openSource", @@ -15896,13 +19684,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/osbu-forecast", + "repositoryURL": "https://github.com/18F/how-to-deploy", "laborHours": 0, "organization": "18F" }, { - "name": "cf-events", - "description": "Cloud.gov Events Data Store", + "name": "id_wireframe", + "description": "quick sprint prototypes", "permissions": { "licenses": null, "usageType": "openSource", @@ -15914,13 +19702,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-events", + "repositoryURL": "https://github.com/18F/id_wireframe", "laborHours": 0, "organization": "18F" }, { - "name": "lambda_map_reduce", - "description": "A MapReduce implementation for use with lambdas", + "name": "wg-volunteer", + "description": "A working group to plan and support 18F-ers volunteering in the community. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -15932,13 +19720,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/lambda_map_reduce", + "repositoryURL": "https://github.com/18F/wg-volunteer", "laborHours": 0, "organization": "18F" }, { - "name": "development-guide", - "description": "A set of guidelines and best practices for an awesome engineering team", + "name": "cf-ex-wordpress", + "description": "CloudFoundry PHP example application: Wordpress", "permissions": { "licenses": null, "usageType": "openSource", @@ -15950,31 +19738,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/development-guide", + "repositoryURL": "https://github.com/18F/cf-ex-wordpress", "laborHours": 0, "organization": "18F" }, { - "name": "qna", - "description": "WIP QnA platform", + "name": "identity-private", + "description": "Consumer Identity Platform", "permissions": { "licenses": null, - "usageType": "openSource", + "usageType": "governmentWideReuse", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/qna", + "repositoryURL": null, "laborHours": 0, "organization": "18F" }, { - "name": "pdf-forms-tutorial", - "description": "A step-by-step guide for programatically filling out PDF forms", + "name": "proto-lei", + "description": "Implementation of the proto-LEI unique entity identifier, a shim for gradual adoption of GLEI from DUNS. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -15986,13 +19774,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pdf-forms-tutorial", + "repositoryURL": "https://github.com/18F/proto-lei", "laborHours": 0, "organization": "18F" }, { - "name": "dolores-landingham-slack-bot", - "description": "A Slack bot to welcome new 18F hires with the authority and compassion of Mrs. Landingham", + "name": "wordpress-heroku", + "description": "Template project for deploying WordPress to Heroku", "permissions": { "licenses": null, "usageType": "openSource", @@ -16004,13 +19792,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dolores-landingham-slack-bot", + "repositoryURL": "https://github.com/18F/wordpress-heroku", "laborHours": 0, "organization": "18F" }, { - "name": "risk-management-framework", - "description": "ATO framework", + "name": "hubot-slack-github-issues", + "description": "[DEPRECATED] Hubot script using the Slack Real Time Messaging and Web APIs to file GitHub issues", "permissions": { "licenses": null, "usageType": "openSource", @@ -16022,13 +19810,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/risk-management-framework", + "repositoryURL": "https://github.com/18F/hubot-slack-github-issues", "laborHours": 0, "organization": "18F" }, { - "name": "dol-form226-validator", - "description": "A proof of concept tool to validate data to be input into a Form 226 application for the 14(c) program", + "name": "unit-testing-node", + "description": "Introductory unit testing exercise in Node.js - WORK IN PROGRESS", "permissions": { "licenses": null, "usageType": "openSource", @@ -16040,31 +19828,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dol-form226-validator", + "repositoryURL": "https://github.com/18F/unit-testing-node", "laborHours": 0, "organization": "18F" }, { - "name": "peacecorps-site", - "description": "A place to think and work on a new Peace Corps website.", + "name": "staytus", + "description": "An open source solution for publishing the status of your services", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/peacecorps-site", + "repositoryURL": "https://github.com/18F/staytus", "laborHours": 0, "organization": "18F" }, { - "name": "peace-corps-infrastructure", - "description": "peace-corps-infrastructure", + "name": "cf-ex-drupal", + "description": "CloudFoundry PHP example application: Drupal 7 and Drupal 8", "permissions": { "licenses": null, "usageType": "openSource", @@ -16076,31 +19869,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/peace-corps-infrastructure", + "repositoryURL": "https://github.com/18F/cf-ex-drupal", "laborHours": 0, "organization": "18F" }, { - "name": "letgirlslearn", - "description": "A Jekyll-powered microsite, live at https://letgirlslearn.peacecorps.gov", + "name": "cf-go-cron", + "description": "[DEPRECATED] A golang version of cf-cron", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "deprecated" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/letgirlslearn", + "repositoryURL": "https://github.com/18F/cf-go-cron", "laborHours": 0, "organization": "18F" }, { - "name": "cg-s3-proxy", - "description": "A simple nginx proxy for S3 website buckets", + "name": "Navy", + "description": "Repository for the Navy's Agile Prototyping Workshop", "permissions": { "licenses": null, "usageType": "openSource", @@ -16112,15 +19905,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-s3-proxy", + "repositoryURL": "https://github.com/18F/Navy", "laborHours": 0, "organization": "18F" }, { - "name": "cf-gitaware", - "description": "WORK IN PROGRESS: Cloud Foundry CLI plugin to include Git metadata on push", + "name": "node-slack-client", + "description": "Slack client library for node.js, written in Coffeescript", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -16130,15 +19928,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-gitaware", + "repositoryURL": "https://github.com/18F/node-slack-client", "laborHours": 0, "organization": "18F" }, { - "name": "linkify-citations", - "description": "Turns legal citations in the DOM into links", + "name": "hubot-adapter-slack-bot", + "description": "This is a Hubot adapter to use with Slack.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -16148,13 +19951,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/linkify-citations", + "repositoryURL": "https://github.com/18F/hubot-adapter-slack-bot", "laborHours": 0, "organization": "18F" }, { - "name": "forecast", - "description": "A contracting opportunities forecasting tool (beta)", + "name": "checklistomania", + "description": "Centrally managed todo lists for complex processes - onboarding, offboarding, management changes, etc.", "permissions": { "licenses": null, "usageType": "openSource", @@ -16166,13 +19969,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/forecast", + "repositoryURL": "https://github.com/18F/checklistomania", "laborHours": 0, "organization": "18F" }, { - "name": "cf-elk-proxy", - "description": "Procedure for deploying an ELK service container to provide durable logging for Cloud Foundry applications.", + "name": "product-guide", + "description": "A handbook for the 18F product team and to promote our product management best practices.", "permissions": { "licenses": null, "usageType": "openSource", @@ -16184,13 +19987,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-elk-proxy", + "repositoryURL": "https://github.com/18F/product-guide", "laborHours": 0, "organization": "18F" }, { - "name": "joining-18f-app", - "description": "A version of the 18F application form. The current live version's repo is 18F/joining-18f.", + "name": "aws-broker", + "description": "Cloud Foundry AWS RDS Service Broker", "permissions": { "licenses": null, "usageType": "openSource", @@ -16202,31 +20005,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/joining-18f-app", + "repositoryURL": "https://github.com/18F/aws-broker", "laborHours": 0, "organization": "18F" }, { - "name": "pages-server", - "description": "DEPRECATED: Static website publishing server for 18F Pages", + "name": "federalist-docs", + "description": "Documentation for the Federalist platform", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "federalist" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pages-server", + "repositoryURL": "https://github.com/18F/federalist-docs", "laborHours": 0, "organization": "18F" }, { - "name": "lumbergh", - "description": "WIP: 18F's automated access management automaton", + "name": "openopps-docs", + "description": "Documentation for Open Opportunities", "permissions": { "licenses": null, "usageType": "openSource", @@ -16238,13 +20041,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/lumbergh", + "repositoryURL": "https://github.com/18F/openopps-docs", "laborHours": 0, "organization": "18F" }, { - "name": "fec-proxy", - "description": "Reverse proxy app to combine multiple applications.", + "name": "samwise", + "description": "Ruby access to the SAM.gov API", "permissions": { "licenses": null, "usageType": "openSource", @@ -16256,13 +20059,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-proxy", + "repositoryURL": "https://github.com/18F/samwise", "laborHours": 0, "organization": "18F" }, { - "name": "github-webhook-validator", - "description": "Express middleware validator for GitHub webhooks", + "name": "ca-child-welfare-solicitations", + "description": "Solicitation PDFs for the California Child Welfare System", "permissions": { "licenses": null, "usageType": "openSource", @@ -16274,13 +20077,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/github-webhook-validator", + "repositoryURL": "https://github.com/18F/ca-child-welfare-solicitations", "laborHours": 0, "organization": "18F" }, { - "name": "3d-files", - "description": "A sandbox for experimenting with 3D files", + "name": "concourse-compliance-testing", + "description": "Concourse CI assets for Compliance Toolkit", "permissions": { "licenses": null, "usageType": "openSource", @@ -16292,13 +20095,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/3d-files", + "repositoryURL": "https://github.com/18F/concourse-compliance-testing", "laborHours": 0, "organization": "18F" }, { - "name": "feedback-widget", - "description": "experiment in creating an embeddable feedback widget", + "name": "objectives-and-key-results", + "description": "Guide to creating OKRs based on Lean UX principles - DRAFT", "permissions": { "licenses": null, "usageType": "openSource", @@ -16310,13 +20113,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/feedback-widget", + "repositoryURL": "https://github.com/18F/objectives-and-key-results", "laborHours": 0, "organization": "18F" }, { - "name": "oauth2_proxy_authentication_gem", - "description": "Authenticates requests from bitly/oauth2_proxy using HMAC signatures", + "name": "engineering-team-faq", + "description": "A place for engineering team members and other 18F folk to find information to some common questions about working on and with the engineering team.", "permissions": { "licenses": null, "usageType": "openSource", @@ -16328,13 +20131,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/oauth2_proxy_authentication_gem", + "repositoryURL": "https://github.com/18F/engineering-team-faq", "laborHours": 0, "organization": "18F" }, { - "name": "oauth2-proxy-authentication-npm", - "description": "Authenticates requests from bitly/oauth2_proxy using HMAC signatures", + "name": "blogging-guide", + "description": "DEPRECIATED: A guide for 18F bloggers to help them get their blog post published. Moved to 18F Handbook", "permissions": { "licenses": null, "usageType": "openSource", @@ -16346,13 +20149,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/oauth2-proxy-authentication-npm", + "repositoryURL": "https://github.com/18F/blogging-guide", "laborHours": 0, "organization": "18F" }, { - "name": "hmac-authentication-npm", - "description": "Signs and authenticates HTTP requests based on a shared-secret HMAC signature", + "name": "fpds-getter", + "description": "fpds-getter", "permissions": { "licenses": null, "usageType": "openSource", @@ -16364,13 +20167,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hmac-authentication-npm", + "repositoryURL": "https://github.com/18F/fpds-getter", "laborHours": 0, "organization": "18F" }, { - "name": "hmac_authentication_gem", - "description": "Signs and authenticates HTTP requests based on a shared-secret HMAC signature", + "name": "test-repo", + "description": "test-repo", "permissions": { "licenses": null, "usageType": "openSource", @@ -16382,33 +20185,47 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hmac_authentication_gem", + "repositoryURL": "https://github.com/18F/test-repo", "laborHours": 0, "organization": "18F" }, { - "name": "hmacauth", - "description": "Signs and authenticates HTTP requests based on a shared-secret HMAC signature", + "name": "cg-style", + "description": "The global style of cloud.gov", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "cloudfoundry", + "cloudgov-style", + "designsystem", + "gov", + "style" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hmacauth", + "repositoryURL": "https://github.com/18F/cg-style", "laborHours": 0, "organization": "18F" }, { - "name": "cg-metrics", - "description": "cg-metrics", + "name": "bosh-deployment-resource", + "description": "deploy bosh releases as part of your pipeline", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -16418,15 +20235,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-metrics", + "repositoryURL": "https://github.com/18F/bosh-deployment-resource", "laborHours": 0, "organization": "18F" }, { - "name": "hmacproxy", - "description": "Proxy server that signs and authenticates HTTP requests using an HMAC signature", + "name": "kibana-cf_authentication", + "description": "Authenticate with Cloud Foundry UAA via OAuth2", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -16436,49 +20258,54 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hmacproxy", + "repositoryURL": "https://github.com/18F/kibana-cf_authentication", "laborHours": 0, "organization": "18F" }, { - "name": "cg-uaa", - "description": "DEPRECATED / DO NOT USE. This repo contains an old version of UAA with known security vulnerabilities. Use the upstream version", + "name": "elasticsearch-rails-ha-gem", + "description": "high availability extensions to the Elasticsearch::Rails standard tasks", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-uaa", + "repositoryURL": "https://github.com/18F/elasticsearch-rails-ha-gem", "laborHours": 0, "organization": "18F" }, { - "name": "brand", - "description": "18F Brand", + "name": "logsearch-for-cloudfoundry", + "description": "[DEPRECATED] A Logsearch addon that customises Logsearch to work with Cloud Foundry data", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "brand" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/brand", + "repositoryURL": "https://github.com/18F/logsearch-for-cloudfoundry", "laborHours": 0, "organization": "18F" }, { - "name": "labor-viz", - "description": "experiment in visualization of 18F labor data", + "name": "private-eye", + "description": "a JavaScript plugin to warn users about links to private pages", "permissions": { "licenses": null, "usageType": "openSource", @@ -16490,13 +20317,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/labor-viz", + "repositoryURL": "https://github.com/18F/private-eye", "laborHours": 0, "organization": "18F" }, { - "name": "hmac_authentication_py", - "description": "Signs and authenticates HTTP requests based on a shared-secret HMAC signature", + "name": "edu-measure-content", + "description": "How to test and measure content", "permissions": { "licenses": null, "usageType": "openSource", @@ -16508,13 +20335,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hmac_authentication_py", + "repositoryURL": "https://github.com/18F/edu-measure-content", "laborHours": 0, "organization": "18F" }, { - "name": "micropurchase", - "description": "18F's micro-purchase threshold experiment management app.", + "name": "federalist-design", + "description": "Research and design work for Federalist", "permissions": { "licenses": null, "usageType": "openSource", @@ -16526,13 +20353,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/micropurchase", + "repositoryURL": "https://github.com/18F/federalist-design", "laborHours": 0, "organization": "18F" }, { - "name": "SEC.gov-developer", - "description": "A collaboration with SEC on APIs and Open Source", + "name": "edu-voice-and-tone", + "description": "Voice and tone module for 18F Edu", "permissions": { "licenses": null, "usageType": "openSource", @@ -16544,31 +20371,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/SEC.gov-developer", + "repositoryURL": "https://github.com/18F/edu-voice-and-tone", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-garden-build", - "description": "A container image that builds static sites as part of the Federalist platform", + "name": "micropurchasedata", + "description": "A data reporter service for micropurchase.18f.gov", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "federalist" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-garden-build", + "repositoryURL": "https://github.com/18F/micropurchasedata", "laborHours": 0, "organization": "18F" }, { - "name": "authdelegate", - "description": "Server that routes requests to multiple authentication servers", + "name": "pa11y-crawl", + "description": "Crawl a site, run pa11y on every HTML page, and get the results", "permissions": { "licenses": null, "usageType": "openSource", @@ -16580,13 +20407,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/authdelegate", + "repositoryURL": "https://github.com/18F/pa11y-crawl", "laborHours": 0, "organization": "18F" }, { - "name": "code-style-guide", - "description": "Centralized collection of style guides and linter information for 18F backend development.", + "name": "wg-onboarding", + "description": "The onboarding working group. ", "permissions": { "licenses": [ { @@ -16603,15 +20430,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/code-style-guide", + "repositoryURL": "https://github.com/18F/wg-onboarding", "laborHours": 0, "organization": "18F" }, { - "name": "devops-workshop", - "description": "devops-workshop", + "name": "wg-identity", + "description": "Identity working group", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -16621,13 +20453,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/devops-workshop", + "repositoryURL": "https://github.com/18F/wg-identity", "laborHours": 0, "organization": "18F" }, { - "name": "authentication", - "description": "18F authentication guide (DRAFT)", + "name": "security-group-test-app", + "description": "Security Group Test app for cg-compliance ", "permissions": { "licenses": null, "usageType": "openSource", @@ -16639,13 +20471,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/authentication", + "repositoryURL": "https://github.com/18F/security-group-test-app", "laborHours": 0, "organization": "18F" }, { - "name": "compliancelib-python", - "description": "Machine readable cybersecurity compliance standards library for Python, starting with FISMA and NIST Risk Management Framework", + "name": "trello-card-velocity", + "description": "WIP: Take a trello board, and calculate the velocity of movement of cards from from one list to another list.", "permissions": { "licenses": null, "usageType": "openSource", @@ -16657,15 +20489,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/compliancelib-python", + "repositoryURL": "https://github.com/18F/trello-card-velocity", "laborHours": 0, "organization": "18F" }, { - "name": "team-api-server", - "description": "Imports and publishes updates to Team API data", + "name": "json-editor", + "description": "JSON Schema Based Editor ", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -16675,13 +20512,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/team-api-server", + "repositoryURL": "https://github.com/18F/json-editor", "laborHours": 0, "organization": "18F" }, { - "name": "prosemirror", - "description": "The ProseMirror WYSIWYM editor", + "name": "beta.18f.gov", + "description": "DEPRECATED, see 18F/18f.gsa.gov", "permissions": { "licenses": null, "usageType": "openSource", @@ -16693,13 +20530,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/prosemirror", + "repositoryURL": "https://github.com/18F/beta.18f.gov", "laborHours": 0, "organization": "18F" }, { - "name": "wg-agiledesign", - "description": "(DEPRECATED) Agile Design Working Group", + "name": "ffd-toolkit", + "description": "Collected process docs, linter configs, and other things necessary to start a repo for the Federal Front Door.", "permissions": { "licenses": null, "usageType": "openSource", @@ -16711,13 +20548,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-agiledesign", + "repositoryURL": "https://github.com/18F/ffd-toolkit", "laborHours": 0, "organization": "18F" }, { - "name": "glossary", - "description": "A glossary panel for your site to help readers understand jargon", + "name": "auctioneer", + "description": "Ruby access to the Micropurchase API", "permissions": { "licenses": null, "usageType": "openSource", @@ -16729,13 +20566,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/glossary", + "repositoryURL": "https://github.com/18F/auctioneer", "laborHours": 0, "organization": "18F" }, { - "name": "micropurchase-temp", - "description": "Temp repository for the rails version", + "name": "contracting-cookbook-client", + "description": "A client to access the data from the contracting cookbook", "permissions": { "licenses": null, "usageType": "openSource", @@ -16747,51 +20584,60 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/micropurchase-temp", + "repositoryURL": "https://github.com/18F/contracting-cookbook-client", "laborHours": 0, "organization": "18F" }, { - "name": "partnership-playbook", - "description": "Guide to help agencies understand what it means to work with 18F. ", + "name": "18f-cli", + "description": "A scaffold/generator to standardize 18F project setup", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "cli", + "generator", + "scaffold", + "scaffolding", + "starter" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/partnership-playbook", + "repositoryURL": "https://github.com/18F/18f-cli", "laborHours": 0, "organization": "18F" }, { - "name": "handbook-urls", - "description": "DEPRECATED: A URL shortener to use in conjunction with our 18F Handbook", + "name": "identity-idp", + "description": "18F Identity Provider (IdP)", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/handbook-urls", + "repositoryURL": "https://github.com/18F/identity-idp", "laborHours": 0, "organization": "18F" }, { - "name": "web-design-standards-drupal", - "description": "A Drupal base theme that uses the U.S. Web Design Standards", + "name": "cf-abacus", + "description": "CF usage metering and aggregation", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -16801,15 +20647,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/web-design-standards-drupal", + "repositoryURL": "https://github.com/18F/cf-abacus", "laborHours": 0, "organization": "18F" }, { - "name": "us_web_design_standards_gem", - "description": "Packages the U.S. Web Design Standards assets as a Ruby Gem for use in a Jekyll project", + "name": "caddy-boshrelease", + "description": "caddy-boshrelease", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -16819,13 +20670,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/us_web_design_standards_gem", + "repositoryURL": "https://github.com/18F/caddy-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cg-sandbox-bot", - "description": "Automatically create sandbox spaces for whitelisted users", + "name": "micropurchase-api-docs", + "description": "[DEPRECATED] Documentation for 18F's micro-purchase API are now at https://micropurchase.18f.gov/api", "permissions": { "licenses": null, "usageType": "openSource", @@ -16837,13 +20688,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-sandbox-bot", + "repositoryURL": "https://github.com/18F/micropurchase-api-docs", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-builder", - "description": "This application is used to launch build tasks for Federalist in an AWS ECS Docker container based on messages from an AWS SQS queue", + "name": "about-yml-editor", + "description": "A proof of concept about.yml editor using json-editor as its base.", "permissions": { "licenses": null, "usageType": "openSource", @@ -16855,15 +20706,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-builder", + "repositoryURL": "https://github.com/18F/about-yml-editor", "laborHours": 0, "organization": "18F" }, { - "name": "confidential-survey", - "description": "A Rails app for conducting confidential surveys without violating user privacy", + "name": "federalist-build-js", + "description": "DEPRECATED - A test to build production JavaScript on Federalist", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -16873,13 +20729,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/confidential-survey", + "repositoryURL": "https://github.com/18F/federalist-build-js", "laborHours": 0, "organization": "18F" }, { - "name": "sheet-to-csv", - "description": "DEPRECATED: Use https://github.com/18F/gapps-download instead", + "name": "notalone-backup", + "description": "Information about how to respond to and prevent sexual assault on college and university campuses.", "permissions": { "licenses": null, "usageType": "openSource", @@ -16891,13 +20747,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sheet-to-csv", + "repositoryURL": "https://github.com/18F/notalone-backup", "laborHours": 0, "organization": "18F" }, { - "name": "infrastructure-modernization", - "description": "Documentation of a plan to take an agency into using a cloud-based infrastructure. ", + "name": "c2-master-detail", + "description": "C2 Front-end Prototype for Master-Detail interface", "permissions": { "licenses": null, "usageType": "openSource", @@ -16909,13 +20765,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/infrastructure-modernization", + "repositoryURL": "https://github.com/18F/c2-master-detail", "laborHours": 0, "organization": "18F" }, { - "name": "gapps-download", - "description": "CLI downloading for google documents", + "name": "karass", + "description": "karass", "permissions": { "licenses": null, "usageType": "openSource", @@ -16927,15 +20783,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/gapps-download", + "repositoryURL": "https://github.com/18F/karass", "laborHours": 0, "organization": "18F" }, { - "name": "frstack", - "description": "Ansible / Vagrant scripts to stand up the ForgeRock Open Identity Stack (OpenAM, OpenIDM, OpenDJ)", + "name": "SinglePaged", + "description": "SinglePaged - Simple Jekyll template", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -16945,13 +20806,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/frstack", + "repositoryURL": "https://github.com/18F/SinglePaged", "laborHours": 0, "organization": "18F" }, { - "name": "cg-compliance", - "description": "OUT OF DATE: OpenControl content for cloud.gov", + "name": "micropurchase-deck", + "description": "Some slides about the micropurchase API", "permissions": { "licenses": null, "usageType": "openSource", @@ -16963,13 +20824,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-compliance", + "repositoryURL": "https://github.com/18F/micropurchase-deck", "laborHours": 0, "organization": "18F" }, { - "name": "wg-api", - "description": "Projects and materials of the API working group. ", + "name": "node-1", + "description": "Node.js JavaScript runtime :sparkles::turtle::rocket::sparkles:", "permissions": { "licenses": null, "usageType": "openSource", @@ -16981,13 +20842,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-api", + "repositoryURL": "https://github.com/18F/node-1", "laborHours": 0, "organization": "18F" }, { - "name": "cg-release", - "description": "Cloud Foundry Release", + "name": "fedramp-data", + "description": "A repository for the data underlying the FedRamp Dashboard", "permissions": { "licenses": null, "usageType": "openSource", @@ -16999,13 +20860,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-release", + "repositoryURL": "https://github.com/18F/fedramp-data", "laborHours": 0, "organization": "18F" }, { - "name": "onboarding-documents", - "description": "Forms, emails, and checklists to help with onboarding", + "name": "compliance-docs", + "description": "18F Security Policies and Procedures ", "permissions": { "licenses": null, "usageType": "openSource", @@ -17017,36 +20878,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/onboarding-documents", - "laborHours": 0, - "organization": "18F" - }, - { - "name": "emoji_search", - "description": "A super simple commandline utility to search for slack messages that have been reacted to with a specific emoji", - "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "tags": [ - "18F" - ], - "contact": { - "email": "18f@gsa.gov" - }, - "repositoryURL": "https://github.com/18F/emoji_search", + "repositoryURL": "https://github.com/18F/compliance-docs", "laborHours": 0, "organization": "18F" }, { - "name": "digital-team-playbook", - "description": "This playbook introduces you to the various aspects of standing up a digital services team within your organization. ", + "name": "lunr-server", + "description": "A Node.js server that responds to queries for Lunr.js indexes", "permissions": { "licenses": null, "usageType": "openSource", @@ -17058,13 +20896,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/digital-team-playbook", + "repositoryURL": "https://github.com/18F/lunr-server", "laborHours": 0, "organization": "18F" }, { - "name": "death-star", - "description": "current landing place for 18f's forthcoming back office solution.", + "name": "circle-wdio-federalist", + "description": "Circle CI + WebDriverIO + Sauce Labs + Federalist = Nirvana?", "permissions": { "licenses": null, "usageType": "openSource", @@ -17076,13 +20914,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/death-star", + "repositoryURL": "https://github.com/18F/circle-wdio-federalist", "laborHours": 0, "organization": "18F" }, { - "name": "minion-nessus-plugin", - "description": "A Minion plugin to run Nessus scans via the REST API", + "name": "plain-language-tutorial", + "description": "The 18F Edu plain language tutorial ", "permissions": { "licenses": null, "usageType": "openSource", @@ -17094,31 +20932,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/minion-nessus-plugin", + "repositoryURL": "https://github.com/18F/plain-language-tutorial", "laborHours": 0, "organization": "18F" }, { - "name": "cg-stats-scripts", - "description": "A collection of scripts to gather information about the cloud.gov environment. Useful for making user centered design decisions", + "name": "internal-air-traffic-control", + "description": "Internal project management viz", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-stats-scripts", + "repositoryURL": "https://github.com/18F/internal-air-traffic-control", "laborHours": 0, "organization": "18F" }, { - "name": "discussions", - "description": "To think through questions together. ", + "name": "trello-card-tracker", + "description": "trello-card-tracker", "permissions": { "licenses": null, "usageType": "openSource", @@ -17130,13 +20968,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/discussions", + "repositoryURL": "https://github.com/18F/trello-card-tracker", "laborHours": 0, "organization": "18F" }, { - "name": "dev-environment-standardization", - "description": "Guide to configuring standard language and operating system environments for software development", + "name": "analytics-reporter-example", + "description": "Analytics-reporter example using imports ", "permissions": { "licenses": null, "usageType": "openSource", @@ -17148,15 +20986,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dev-environment-standardization", + "repositoryURL": "https://github.com/18F/analytics-reporter-example", "laborHours": 0, "organization": "18F" }, { - "name": "g-content", - "description": "18F Content Guild", + "name": "cg-style-gem", + "description": "DEPRECATED: Gem for including cloud.gov style.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17166,13 +21009,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/g-content", + "repositoryURL": "https://github.com/18F/cg-style-gem", "laborHours": 0, "organization": "18F" }, { - "name": "discover-our-work", - "description": "We want to make it easy for people to find and filter 18F projects in different ways", + "name": "c2-redirect", + "description": "static redirect site", "permissions": { "licenses": null, "usageType": "openSource", @@ -17184,15 +21027,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/discover-our-work", + "repositoryURL": "https://github.com/18F/c2-redirect", "laborHours": 0, "organization": "18F" }, { - "name": "wg-diversity", - "description": "18F Diversity Working Group", + "name": "passport-google-oauth2", + "description": "Google (OAuth 2.0) authentication strategy for Passport.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17202,13 +21050,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-diversity", + "repositoryURL": "https://github.com/18F/passport-google-oauth2", "laborHours": 0, "organization": "18F" }, { - "name": "wg-dataservices", - "description": "18F Data Science Working Group", + "name": "fpki-testing", + "description": "Testing out Federal PKI certificate chains.", "permissions": { "licenses": null, "usageType": "openSource", @@ -17220,15 +21068,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-dataservices", + "repositoryURL": "https://github.com/18F/fpki-testing", "laborHours": 0, "organization": "18F" }, { - "name": "angrytock", - "description": "slackbot slapbot for tock", + "name": "slack-notification-resource-boshrelease", + "description": "BOSH release to package slack-notification-resource", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17238,13 +21091,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/angrytock", + "repositoryURL": "https://github.com/18F/slack-notification-resource-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cg-pipelines", - "description": "DEPRECATED: Concourse pipelines for the 18F Cloud Foundry deployment. (moved to separate repositories)", + "name": "cg-deploy-concourse-docker-image", + "description": "Build and deploy Docker image used in Concourse pipeline tasks", "permissions": { "licenses": null, "usageType": "openSource", @@ -17256,54 +21109,56 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-pipelines", + "repositoryURL": "https://github.com/18F/cg-deploy-concourse-docker-image", "laborHours": 0, "organization": "18F" }, { - "name": "discourse", - "description": "A platform for community discussion. Free, open, simple.", + "name": "node-restify", + "description": "node.js REST framework specifically meant for web service APIs", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/gpl-2.0", - "name": "GPL-2.0" + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" } ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/discourse", + "repositoryURL": "https://github.com/18F/node-restify", "laborHours": 0, "organization": "18F" }, { - "name": "compliance-toolkit", - "description": "Compliance at the speed of Delivery.", + "name": "compliance-viewer", + "description": "A proof of concept app for viewing scan logs stored on S3.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "security", + "sinatra", + "zap" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/compliance-toolkit", + "repositoryURL": "https://github.com/18F/compliance-viewer", "laborHours": 0, "organization": "18F" }, { - "name": "minion-vm", - "description": "Vagrantfile and Dockerfiles that help make minion development and deployment far easier", + "name": "cg-goshin", + "description": "Goshin! a Golang alternative to riemann-tools", "permissions": { "licenses": null, "usageType": "openSource", @@ -17315,13 +21170,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/minion-vm", + "repositoryURL": "https://github.com/18F/cg-goshin", "laborHours": 0, "organization": "18F" }, { - "name": "accordion", - "description": "A simple, 508 compliant JavaScript accordion", + "name": "cg-deploy-compliance-documentation", + "description": "Concourse pipeline for deploying compliance.cloud.gov", "permissions": { "licenses": null, "usageType": "openSource", @@ -17333,31 +21188,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/accordion", + "repositoryURL": "https://github.com/18F/cg-deploy-compliance-documentation", "laborHours": 0, "organization": "18F" }, { - "name": "docker-ruby-ubuntu", - "description": "docker-ruby-ubuntu", + "name": "epa-notice", + "description": "Web interface for viewing and commenting on proposed changes to federal regulations", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/docker-ruby-ubuntu", + "repositoryURL": "https://github.com/18F/epa-notice", "laborHours": 0, "organization": "18F" }, { - "name": "about-yml-validator", - "description": ".about.yml project metadata schema and tools", + "name": "cg-pipeline-tasks", + "description": "Concourse common tasks", "permissions": { "licenses": null, "usageType": "openSource", @@ -17369,13 +21224,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/about-yml-validator", + "repositoryURL": "https://github.com/18F/cg-pipeline-tasks", "laborHours": 0, "organization": "18F" }, { - "name": "feedback.js", - "description": "github feedback widget", + "name": "ffd-microsite", + "description": "An informational website about the Federal Front Door project.", "permissions": { "licenses": null, "usageType": "openSource", @@ -17387,13 +21242,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/feedback.js", + "repositoryURL": "https://github.com/18F/ffd-microsite", "laborHours": 0, "organization": "18F" }, { - "name": "zap-core-help", - "description": "The help files for the OWASP ZAP core", + "name": "standup-slack-bot", + "description": "A Slack bot to streamline team standup without disturbing the overall flow of conversation", "permissions": { "licenses": null, "usageType": "openSource", @@ -17405,20 +21260,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/zap-core-help", + "repositoryURL": "https://github.com/18F/standup-slack-bot", "laborHours": 0, "organization": "18F" }, { - "name": "github-issue-lifecycle", - "description": "Serve data on lifecycle (open -> milestones -> close) of a repo's issues", + "name": "cg-deploy-monitoring", + "description": "cg-deploy-monitoring", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -17428,13 +21278,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/github-issue-lifecycle", + "repositoryURL": "https://github.com/18F/cg-deploy-monitoring", "laborHours": 0, "organization": "18F" }, { - "name": "how-to-deploy", - "description": "Guides on how to deploy open source projects to Cloud Foundry", + "name": "cg-deploy-concourse", + "description": "Manifests and pipeline for deploying Concourse.ci", "permissions": { "licenses": null, "usageType": "openSource", @@ -17446,33 +21296,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/how-to-deploy", + "repositoryURL": "https://github.com/18F/cg-deploy-concourse", "laborHours": 0, "organization": "18F" }, { - "name": "id_wireframe", - "description": "quick sprint prototypes", + "name": "npm-bootstrap", + "description": "Bootstrap a directory as an npm module", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/id_wireframe", + "repositoryURL": "https://github.com/18F/npm-bootstrap", "laborHours": 0, "organization": "18F" }, { - "name": "wg-volunteer", - "description": "A working group to plan and support 18F-ers volunteering in the community. ", + "name": "cg-grafana-boshrelease", + "description": "a BOSH release for the Grafana metrics dashboard", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17482,20 +21337,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-volunteer", + "repositoryURL": "https://github.com/18F/cg-grafana-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cf-ex-wordpress", - "description": "CloudFoundry PHP example application: Wordpress", + "name": "cg-deploy-cf", + "description": "Concourse pipeline and manifests for the 18F Cloud Foundry deployment.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -17505,15 +21355,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-ex-wordpress", + "repositoryURL": "https://github.com/18F/cg-deploy-cf", "laborHours": 0, "organization": "18F" }, { - "name": "proto-lei", - "description": "Implementation of the proto-LEI unique entity identifier, a shim for gradual adoption of GLEI from DUNS. ", + "name": "cg-influxdb-boshrelease", + "description": "cg-influxdb-boshrelease", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17523,13 +21378,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/proto-lei", + "repositoryURL": "https://github.com/18F/cg-influxdb-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "wordpress-heroku", - "description": "Template project for deploying WordPress to Heroku", + "name": "team-browser", + "description": "Interface to team-api-server", "permissions": { "licenses": null, "usageType": "openSource", @@ -17541,13 +21396,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wordpress-heroku", + "repositoryURL": "https://github.com/18F/team-browser", "laborHours": 0, "organization": "18F" }, { - "name": "hubot-slack-github-issues", - "description": "[DEPRECATED] Hubot script using the Slack Real Time Messaging and Web APIs to file GitHub issues", + "name": "cg-deploy-discourse", + "description": "Concourse pipeline for the 18F discourse deployment.", "permissions": { "licenses": null, "usageType": "openSource", @@ -17559,13 +21414,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hubot-slack-github-issues", + "repositoryURL": "https://github.com/18F/cg-deploy-discourse", "laborHours": 0, "organization": "18F" }, { - "name": "unit-testing-node", - "description": "Introductory unit testing exercise in Node.js - WORK IN PROGRESS", + "name": "knowledge-sharing-toolkit", + "description": "[EXPERIMENTAL] Docker components for the knowledge sharing toolkit", "permissions": { "licenses": null, "usageType": "openSource", @@ -17577,13 +21432,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/unit-testing-node", + "repositoryURL": "https://github.com/18F/knowledge-sharing-toolkit", "laborHours": 0, "organization": "18F" }, { - "name": "staytus", - "description": "An open source solution for publishing the status of your services", + "name": "cg-collectd-boshrelease", + "description": "cg-collectd-boshrelease", "permissions": { "licenses": null, "usageType": "openSource", @@ -17595,15 +21450,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/staytus", + "repositoryURL": "https://github.com/18F/cg-collectd-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "fec-eregs", - "description": "Viewer for the FEC CFR", + "name": "mocha-casperjs", + "description": "Write CasperJS tests using Mocha", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17613,13 +21473,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-eregs", + "repositoryURL": "https://github.com/18F/mocha-casperjs", "laborHours": 0, "organization": "18F" }, { - "name": "cf-ex-drupal", - "description": "CloudFoundry PHP example application: Drupal 7", + "name": "travel-form", + "description": "A travel authorization form", "permissions": { "licenses": null, "usageType": "openSource", @@ -17631,31 +21491,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-ex-drupal", + "repositoryURL": "https://github.com/18F/travel-form", "laborHours": 0, "organization": "18F" }, { - "name": "cf-go-cron", - "description": "[DEPRECATED] A golang version of cf-cron", + "name": "deduplicate-tock-float", + "description": "A command line interface to highlight projects with similar names in Tock and Float", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "deprecated" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-go-cron", + "repositoryURL": "https://github.com/18F/deduplicate-tock-float", "laborHours": 0, "organization": "18F" }, { - "name": "Navy", - "description": "Repository for the Navy's Agile Prototyping Workshop", + "name": "pa11y-rails", + "description": "A rails app that tracks 18F's various app's accessibility using the pa11y CLI tool. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -17667,15 +21527,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/Navy", + "repositoryURL": "https://github.com/18F/pa11y-rails", "laborHours": 0, "organization": "18F" }, { - "name": "node-slack-client", - "description": "Slack client library for node.js, written in Coffeescript", + "name": "huginn", + "description": "Build agents that monitor and act on your behalf. Your agents are standing by!", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17685,13 +21550,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/node-slack-client", + "repositoryURL": "https://github.com/18F/huginn", "laborHours": 0, "organization": "18F" }, { - "name": "hubot-adapter-slack-bot", - "description": "This is a Hubot adapter to use with Slack.", + "name": "elasticsearch-indexstager-gem", + "description": "manage Elasticsearch indexes using staging pattern", "permissions": { "licenses": null, "usageType": "openSource", @@ -17703,13 +21568,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hubot-adapter-slack-bot", + "repositoryURL": "https://github.com/18F/elasticsearch-indexstager-gem", "laborHours": 0, "organization": "18F" }, { - "name": "checklistomania", - "description": "Centrally managed todo lists for complex processes - onboarding, offboarding, management changes, etc.", + "name": "cg-common-resource", + "description": "Cloud.gov common concourse resource", "permissions": { "licenses": null, "usageType": "openSource", @@ -17721,13 +21586,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/checklistomania", + "repositoryURL": "https://github.com/18F/cg-common-resource", "laborHours": 0, "organization": "18F" }, { - "name": "product-guide", - "description": "A handbook for the 18F product team and to promote our product management best practices.", + "name": "us-federal-holidays", + "description": "A Node.js package for getting US federal holidays for a given year, or determining if a date is a federal holiday.", "permissions": { "licenses": null, "usageType": "openSource", @@ -17739,13 +21604,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/product-guide", + "repositoryURL": "https://github.com/18F/us-federal-holidays", "laborHours": 0, "organization": "18F" }, { - "name": "aws-broker", - "description": "Cloud Foundry AWS RDS Service Broker", + "name": "onena", + "description": "A CLI tool to reconcile Tock and Float data", "permissions": { "licenses": null, "usageType": "openSource", @@ -17757,31 +21622,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/aws-broker", + "repositoryURL": "https://github.com/18F/onena", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-docs", - "description": "Documentation for the Federalist platform", + "name": "cg-deploy-logsearch", + "description": "Concourse pipeline and manifests for the 18F cloud.gov ELK deployment.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "federalist" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-docs", + "repositoryURL": "https://github.com/18F/cg-deploy-logsearch", "laborHours": 0, "organization": "18F" }, { - "name": "openopps-docs", - "description": "Documentation for Open Opportunities", + "name": "videochat-mute-manager", + "description": "A chrome extension to automatically mute videochats and easily toggle it on/off afterwards", "permissions": { "licenses": null, "usageType": "openSource", @@ -17793,13 +21658,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/openopps-docs", + "repositoryURL": "https://github.com/18F/videochat-mute-manager", "laborHours": 0, "organization": "18F" }, { - "name": "samwise", - "description": "Ruby access to the SAM.gov API", + "name": "drmaas", + "description": "DRMaaS demo for NTIS", "permissions": { "licenses": null, "usageType": "openSource", @@ -17811,15 +21676,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/samwise", + "repositoryURL": "https://github.com/18F/drmaas", "laborHours": 0, "organization": "18F" }, { - "name": "ca-child-welfare-solicitations", - "description": "Solicitation PDFs for the California Child Welfare System", + "name": "influxdb-firehose-nozzle", + "description": "CF component to forward metrics from the Loggregator Firehose to DataDog", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17829,15 +21699,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ca-child-welfare-solicitations", + "repositoryURL": "https://github.com/18F/influxdb-firehose-nozzle", "laborHours": 0, "organization": "18F" }, { - "name": "concourse-compliance-testing", - "description": "Concourse CI assets for Compliance Toolkit", + "name": "influxdb-firehose-nozzle-release", + "description": "BOSH release for datadog-firehose-nozzle", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17847,13 +21722,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/concourse-compliance-testing", + "repositoryURL": "https://github.com/18F/influxdb-firehose-nozzle-release", "laborHours": 0, "organization": "18F" }, { - "name": "objectives-and-key-results", - "description": "Guide to creating OKRs based on Lean UX principles - DRAFT", + "name": "seal", + "description": "A Slack bot that publishes open pull requests daily to language-specific channels.", "permissions": { "licenses": null, "usageType": "openSource", @@ -17865,13 +21740,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/objectives-and-key-results", + "repositoryURL": "https://github.com/18F/seal", "laborHours": 0, "organization": "18F" }, { - "name": "engineering-team-faq", - "description": "A place for engineering team members and other 18F folk to find information to some common questions about working on and with the engineering team.", + "name": "cg-postmortems", + "description": "How we ensure we are always learning", "permissions": { "licenses": null, "usageType": "openSource", @@ -17883,13 +21758,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/engineering-team-faq", + "repositoryURL": "https://github.com/18F/cg-postmortems", "laborHours": 0, "organization": "18F" }, { - "name": "blogging-guide", - "description": "A guide for 18F bloggers to help them get their blog post published.", + "name": "coffeemate", + "description": "The virtual coffee matchmaking slackbot", "permissions": { "licenses": null, "usageType": "openSource", @@ -17901,15 +21776,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/blogging-guide", + "repositoryURL": "https://github.com/18F/coffeemate", "laborHours": 0, "organization": "18F" }, { - "name": "fpds-getter", - "description": "fpds-getter", + "name": "cg-s3-service-broker", + "description": "DEPRECATED. You want: https://github.com/cloudfoundry-community/s3-broker", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17919,15 +21799,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fpds-getter", + "repositoryURL": "https://github.com/18F/cg-s3-service-broker", "laborHours": 0, "organization": "18F" }, { - "name": "test-repo", - "description": "test-repo", + "name": "cg-riemann-boshrelease", + "description": "cg-riemann-boshrelease", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -17937,13 +21822,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/test-repo", + "repositoryURL": "https://github.com/18F/cg-riemann-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cg-style", - "description": "The global style of cloud.gov", + "name": "climate-labs", + "description": "A climate information user study and report", "permissions": { "licenses": [ { @@ -17955,22 +21840,18 @@ "exemptionText": null }, "tags": [ - "cloudfoundry", - "cloudgov-style", - "designsystem", - "gov", - "style" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-style", + "repositoryURL": "https://github.com/18F/climate-labs", "laborHours": 0, "organization": "18F" }, { - "name": "bosh-deployment-resource", - "description": "deploy bosh releases as part of your pipeline", + "name": "joining-epa", + "description": "Recruiting as a service (RaaS) page for EPA. Based on joining-18f.", "permissions": { "licenses": null, "usageType": "openSource", @@ -17982,13 +21863,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bosh-deployment-resource", + "repositoryURL": "https://github.com/18F/joining-epa", "laborHours": 0, "organization": "18F" }, { - "name": "kibana-cf_authentication", - "description": "Authenticate with Cloud Foundry UAA via OAuth2", + "name": "s3-resource-simple", + "description": "Concourse CI Resource for uploading files to S3", "permissions": { "licenses": null, "usageType": "openSource", @@ -18000,38 +21881,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/kibana-cf_authentication", + "repositoryURL": "https://github.com/18F/s3-resource-simple", "laborHours": 0, "organization": "18F" }, { - "name": "elasticsearch-rails-ha-gem", - "description": "high availability extensions to the Elasticsearch::Rails standard tasks", + "name": "bpa-fedramp-dashboard", + "description": "FedRAMP Dashboard BPA Order", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "agile-bpa", + "fedramp", + "government", + "gsa" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/elasticsearch-rails-ha-gem", + "repositoryURL": "https://github.com/18F/bpa-fedramp-dashboard", "laborHours": 0, "organization": "18F" }, { - "name": "logsearch-for-cloudfoundry", - "description": "[DEPRECATED] A Logsearch addon that customises Logsearch to work with Cloud Foundry data", + "name": "concourse-http-api-resource", + "description": "Concourse resource to allow interaction with (simple) HTTP API's.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -18041,13 +21920,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/logsearch-for-cloudfoundry", + "repositoryURL": "https://github.com/18F/concourse-http-api-resource", "laborHours": 0, "organization": "18F" }, { - "name": "private-eye", - "description": "a JavaScript plugin to warn users about links to private pages", + "name": "cg-deploy-admin-ui", + "description": "cg-deploy-admin-ui", "permissions": { "licenses": null, "usageType": "openSource", @@ -18059,15 +21938,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/private-eye", + "repositoryURL": "https://github.com/18F/cg-deploy-admin-ui", "laborHours": 0, "organization": "18F" }, { - "name": "edu-measure-content", - "description": "How to test and measure content", + "name": "pages-shell", + "description": "An empty shell to build other pages.18f.gov sites from.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -18077,13 +21961,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/edu-measure-content", + "repositoryURL": "https://github.com/18F/pages-shell", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-design", - "description": "Research and design work for Federalist", + "name": "fec-cloud", + "description": "Should FEC move all the things to The Cloud? We'll see.", "permissions": { "licenses": null, "usageType": "openSource", @@ -18095,13 +21979,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-design", + "repositoryURL": "https://github.com/18F/fec-cloud", "laborHours": 0, "organization": "18F" }, { - "name": "edu-voice-and-tone", - "description": "Voice and tone module for 18F Edu", + "name": "pulse-accessibility-data", + "description": "Data and scripts for collecting accessibility data across .gov domains", "permissions": { "licenses": null, "usageType": "openSource", @@ -18113,13 +21997,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/edu-voice-and-tone", + "repositoryURL": "https://github.com/18F/pulse-accessibility-data", "laborHours": 0, "organization": "18F" }, { - "name": "micropurchasedata", - "description": "A data reporter service for micropurchase.18f.gov", + "name": "cg-deploy-influxdb-firehose-nozzle", + "description": "[DEPRECATED]", "permissions": { "licenses": null, "usageType": "openSource", @@ -18131,13 +22015,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/micropurchasedata", + "repositoryURL": "https://github.com/18F/cg-deploy-influxdb-firehose-nozzle", "laborHours": 0, "organization": "18F" }, { - "name": "pa11y-crawl", - "description": "Crawl a site, run pa11y on every HTML page, and get the results", + "name": "cg-deploy-bosh", + "description": "18F deployment manifests and pipelines for BOSH", "permissions": { "licenses": null, "usageType": "openSource", @@ -18149,20 +22033,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pa11y-crawl", + "repositoryURL": "https://github.com/18F/cg-deploy-bosh", "laborHours": 0, "organization": "18F" }, { - "name": "wg-onboarding", - "description": "The onboarding working group. ", + "name": "hub-v2", + "description": "The hub is becoming a search engine that finds content, wherever it lives, and displays it in search results. ", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -18172,20 +22051,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-onboarding", + "repositoryURL": "https://github.com/18F/hub-v2", "laborHours": 0, "organization": "18F" }, { - "name": "wg-identity", - "description": "Identity working group", + "name": "heroku-buildpack-apt", + "description": "heroku-buildpack-apt", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -18195,13 +22069,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-identity", + "repositoryURL": "https://github.com/18F/heroku-buildpack-apt", "laborHours": 0, "organization": "18F" }, { - "name": "security-group-test-app", - "description": "Security Group Test app for cg-compliance ", + "name": "tts-public-comments", + "description": "Collection of public comments that TTS makes on proposed federal policies.", "permissions": { "licenses": null, "usageType": "openSource", @@ -18213,13 +22087,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/security-group-test-app", + "repositoryURL": "https://github.com/18F/tts-public-comments", "laborHours": 0, "organization": "18F" }, { - "name": "trello-card-velocity", - "description": "WIP: Take a trello board, and calculate the velocity of movement of cards from from one list to another list.", + "name": "transformation-services", + "description": "A repository for Transformation Services", "permissions": { "licenses": null, "usageType": "openSource", @@ -18231,13 +22105,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/trello-card-velocity", + "repositoryURL": "https://github.com/18F/transformation-services", "laborHours": 0, "organization": "18F" }, { - "name": "json-editor", - "description": "JSON Schema Based Editor ", + "name": "writing-lab-guide", + "description": "A guide to 18F's internal Writing Lab for submitters and editors ", "permissions": { "licenses": null, "usageType": "openSource", @@ -18249,13 +22123,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/json-editor", + "repositoryURL": "https://github.com/18F/writing-lab-guide", "laborHours": 0, "organization": "18F" }, { - "name": "beta.18f.gov", - "description": "DEPRECATED, see 18F/18f.gsa.gov", + "name": "NTIS-Data-Services-Project", + "description": "Reimagining the services and data products of the National Technical Information Service (NTIS), Department of Commerce", "permissions": { "licenses": null, "usageType": "openSource", @@ -18267,33 +22141,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/beta.18f.gov", + "repositoryURL": "https://github.com/18F/NTIS-Data-Services-Project", "laborHours": 0, "organization": "18F" }, { - "name": "ffd-toolkit", - "description": "Collected process docs, linter configs, and other things necessary to start a repo for the Federal Front Door.", + "name": "atc-trello", + "description": "Air Traffic Control Trello listener", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ffd-toolkit", + "repositoryURL": "https://github.com/18F/atc-trello", "laborHours": 0, "organization": "18F" }, { - "name": "auctioneer", - "description": "Ruby access to the Micropurchase API", + "name": "meta", + "description": "Odds and Ends about TTS and the people who live there", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -18303,13 +22182,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/auctioneer", + "repositoryURL": "https://github.com/18F/meta", "laborHours": 0, "organization": "18F" }, { - "name": "contracting-cookbook-client", - "description": "A client to access the data from the contracting cookbook", + "name": "concourse-http-resource", + "description": "Concourse resource for fetching files from versioned directories on a HTTP endpoint.", "permissions": { "licenses": null, "usageType": "openSource", @@ -18321,13 +22200,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/contracting-cookbook-client", + "repositoryURL": "https://github.com/18F/concourse-http-resource", "laborHours": 0, "organization": "18F" }, { - "name": "18f-cli", - "description": "A command line utility to standardize common 18F actions", + "name": "cg-nessus-agent-boshrelease", + "description": "Bosh release for the nessus agent", "permissions": { "licenses": null, "usageType": "openSource", @@ -18339,38 +22218,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/18f-cli", + "repositoryURL": "https://github.com/18F/cg-nessus-agent-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "identity-idp", - "description": "18F Identity Provider (IdP)", + "name": "pdfhook", + "description": "A Python web application for converting PDF forms into PDF-filling APIs", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-idp", + "repositoryURL": "https://github.com/18F/pdfhook", "laborHours": 0, "organization": "18F" }, { - "name": "cf-abacus", - "description": "CF usage metering and aggregation", + "name": "hubot-scripts-us-federal-holiday", + "description": "Get the next US federal holiday", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -18380,20 +22259,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-abacus", + "repositoryURL": "https://github.com/18F/hubot-scripts-us-federal-holiday", "laborHours": 0, "organization": "18F" }, { - "name": "caddy-boshrelease", - "description": "caddy-boshrelease", + "name": "pa11y-reporter-full-json", + "description": "A pa11y reporter to extend the 1.0 format to include additional fields", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -18403,15 +22277,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/caddy-boshrelease", + "repositoryURL": "https://github.com/18F/pa11y-reporter-full-json", "laborHours": 0, "organization": "18F" }, { - "name": "micropurchase-api-docs", - "description": "[DEPRECATED] Documentation for 18F's micro-purchase API are now at https://micropurchase.18f.gov/api", + "name": "htsql-docker", + "description": "Dockerfiles for HTSQL servers", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -18421,13 +22300,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/micropurchase-api-docs", + "repositoryURL": "https://github.com/18F/htsql-docker", "laborHours": 0, "organization": "18F" }, { - "name": "about-yml-editor", - "description": "A proof of concept about.yml editor using json-editor as its base.", + "name": "14c-prototype", + "description": "14c-prototype", "permissions": { "licenses": null, "usageType": "openSource", @@ -18439,20 +22318,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/about-yml-editor", + "repositoryURL": "https://github.com/18F/14c-prototype", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-build-js", - "description": "DEPRECATED - A test to build production JavaScript on Federalist", + "name": "gh-traffic", + "description": "Get Github traffic", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -18462,13 +22336,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-build-js", + "repositoryURL": "https://github.com/18F/gh-traffic", "laborHours": 0, "organization": "18F" }, { - "name": "notalone-backup", - "description": "Information about how to respond to and prevent sexual assault on college and university campuses.", + "name": "sandman2", + "description": "sandman2", "permissions": { "licenses": null, "usageType": "openSource", @@ -18480,13 +22354,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/notalone-backup", + "repositoryURL": "https://github.com/18F/sandman2", "laborHours": 0, "organization": "18F" }, { - "name": "c2-master-detail", - "description": "C2 Front-end Prototype for Master-Detail interface", + "name": "ogp-payroll", + "description": "Front end for the OGP Payroll Reporting prototype project", "permissions": { "licenses": null, "usageType": "openSource", @@ -18498,15 +22372,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/c2-master-detail", + "repositoryURL": "https://github.com/18F/ogp-payroll", "laborHours": 0, "organization": "18F" }, { - "name": "karass", - "description": "karass", + "name": "ogp-payroll-server", + "description": "Back-end for the OGP Payroll prototype", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -18516,15 +22395,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/karass", + "repositoryURL": "https://github.com/18F/ogp-payroll-server", "laborHours": 0, "organization": "18F" }, { - "name": "SinglePaged", - "description": "SinglePaged - Simple Jekyll template", + "name": "cg-product", + "description": "Program-level artifacts, workflow and issues for cloud.gov", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -18534,13 +22418,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/SinglePaged", + "repositoryURL": "https://github.com/18F/cg-product", "laborHours": 0, "organization": "18F" }, { - "name": "micropurchase-deck", - "description": "Some slides about the micropurchase API", + "name": "pa11y-docker", + "description": "Minimal Docker setup to run pa11y", "permissions": { "licenses": null, "usageType": "openSource", @@ -18552,13 +22436,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/micropurchase-deck", + "repositoryURL": "https://github.com/18F/pa11y-docker", "laborHours": 0, "organization": "18F" }, { - "name": "node-1", - "description": "Node.js JavaScript runtime :sparkles::turtle::rocket::sparkles:", + "name": "ntis-gov", + "description": "Prototype for NTIS website", "permissions": { "licenses": null, "usageType": "openSource", @@ -18570,13 +22454,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/node-1", + "repositoryURL": "https://github.com/18F/ntis-gov", "laborHours": 0, "organization": "18F" }, { - "name": "fedramp-data", - "description": "A repository for the data underlying the FedRamp Dashboard", + "name": "c2-api-client-ruby", + "description": "C2 API client for Ruby", "permissions": { "licenses": null, "usageType": "openSource", @@ -18588,13 +22472,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fedramp-data", + "repositoryURL": "https://github.com/18F/c2-api-client-ruby", "laborHours": 0, "organization": "18F" }, { - "name": "compliance-docs", - "description": "18F Security Policies and Procedures ", + "name": "chat", + "description": "the little site that connects 18F to the public", "permissions": { "licenses": null, "usageType": "openSource", @@ -18606,13 +22490,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/compliance-docs", + "repositoryURL": "https://github.com/18F/chat", "laborHours": 0, "organization": "18F" }, { - "name": "lunr-server", - "description": "A Node.js server that responds to queries for Lunr.js indexes", + "name": "cg-application-ssp-example", + "description": "[DEPRECATED/OUTDATED] A generic SSP setup example for cloud.gov-based applications.", "permissions": { "licenses": null, "usageType": "openSource", @@ -18624,13 +22508,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/lunr-server", + "repositoryURL": "https://github.com/18F/cg-application-ssp-example", "laborHours": 0, "organization": "18F" }, { - "name": "circle-wdio-federalist", - "description": "Circle CI + WebDriverIO + Sauce Labs + Federalist = Nirvana?", + "name": "rugged-devops", + "description": "18F Guide to Rugged DevOps ", "permissions": { "licenses": null, "usageType": "openSource", @@ -18642,13 +22526,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/circle-wdio-federalist", + "repositoryURL": "https://github.com/18F/rugged-devops", "laborHours": 0, "organization": "18F" }, { - "name": "plain-language-tutorial", - "description": "The 18F Edu plain language tutorial ", + "name": "strategy", + "description": "A place for strategy chapter members and other 18F folk to find information about being on and working with the strategy team.", "permissions": { "licenses": null, "usageType": "openSource", @@ -18660,31 +22544,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/plain-language-tutorial", + "repositoryURL": "https://github.com/18F/strategy", "laborHours": 0, "organization": "18F" }, { - "name": "internal-air-traffic-control", - "description": "Internal project management viz", + "name": "acq-templates", + "description": "A collection of templatized standard 18F documents, written in Markdown with Handlebars templating.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/internal-air-traffic-control", + "repositoryURL": "https://github.com/18F/acq-templates", "laborHours": 0, "organization": "18F" }, { - "name": "trello-card-tracker", - "description": "trello-card-tracker", + "name": "cap-api-docker", + "description": "Minimal Docker setup to access the CAP API via Ruby", "permissions": { "licenses": null, "usageType": "openSource", @@ -18696,13 +22580,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/trello-card-tracker", + "repositoryURL": "https://github.com/18F/cap-api-docker", "laborHours": 0, "organization": "18F" }, { - "name": "analytics-reporter-example", - "description": "Analytics-reporter example using imports ", + "name": "GSA-Certifications", + "description": "GSA specific certifications for CM", "permissions": { "licenses": null, "usageType": "openSource", @@ -18714,13 +22598,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/analytics-reporter-example", + "repositoryURL": "https://github.com/18F/GSA-Certifications", "laborHours": 0, "organization": "18F" }, { - "name": "cg-style-gem", - "description": "DEPRECATED: Gem for including cloud.gov style.", + "name": "cg-atlas", + "description": "Repository hosting issues and artifacts related to operations of the cloud.gov platform", "permissions": { "licenses": [ { @@ -18737,31 +22621,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-style-gem", + "repositoryURL": "https://github.com/18F/cg-atlas", "laborHours": 0, "organization": "18F" }, { - "name": "c2-redirect", - "description": "static redirect site", + "name": "trello-webhook-server", + "description": "A Trello webhook server", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/c2-redirect", + "repositoryURL": "https://github.com/18F/trello-webhook-server", "laborHours": 0, "organization": "18F" }, { - "name": "passport-google-oauth2", - "description": "Google (OAuth 2.0) authentication strategy for Passport.", + "name": "wds-ia-summit-presentation", + "description": "wds-ia-summit-presentation", "permissions": { "licenses": null, "usageType": "openSource", @@ -18773,13 +22657,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/passport-google-oauth2", + "repositoryURL": "https://github.com/18F/wds-ia-summit-presentation", "laborHours": 0, "organization": "18F" }, { - "name": "fpki-testing", - "description": "Testing out Federal PKI certificate chains.", + "name": "chandika", + "description": "Cloud Application Registry", "permissions": { "licenses": null, "usageType": "openSource", @@ -18791,13 +22675,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fpki-testing", + "repositoryURL": "https://github.com/18F/chandika", "laborHours": 0, "organization": "18F" }, { - "name": "slack-notification-resource-boshrelease", - "description": "BOSH release to package slack-notification-resource", + "name": "django-pg-fts", + "description": "Implementation PostgeSQL for Full Text Search for Django >= 1.7", "permissions": { "licenses": null, "usageType": "openSource", @@ -18809,69 +22693,69 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/slack-notification-resource-boshrelease", + "repositoryURL": "https://github.com/18F/django-pg-fts", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-concourse-docker-image", - "description": "Build and deploy Docker image used in Concourse pipeline tasks", + "name": "identity-idv", + "description": "18f mock identity verification service - DEPRECATED", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov", + "login-gov-deprecated" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-concourse-docker-image", + "repositoryURL": "https://github.com/18F/identity-idv", "laborHours": 0, "organization": "18F" }, - { - "name": "node-restify", - "description": "node.js REST framework specifically meant for web service APIs", + { + "name": "legalese", + "description": "experimental legal language checker for third-party services", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/node-restify", + "repositoryURL": "https://github.com/18F/legalese", "laborHours": 0, "organization": "18F" }, { - "name": "compliance-viewer", - "description": "A proof of concept app for viewing scan logs stored on S3.", + "name": "cfpb-eprocurement", + "description": "Procurement prototypes for CFPB", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "security", - "sinatra", - "zap" + "capital-framework", + "cfpb" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/compliance-viewer", + "repositoryURL": "https://github.com/18F/cfpb-eprocurement", "laborHours": 0, "organization": "18F" }, { - "name": "cg-goshin", - "description": "Goshin! a Golang alternative to riemann-tools", + "name": "cg-ossec-boshrelease", + "description": "(experimental) OSSEC Intruder Detection for BOSH / Cloud Foundry", "permissions": { "licenses": null, "usageType": "openSource", @@ -18883,13 +22767,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-goshin", + "repositoryURL": "https://github.com/18F/cg-ossec-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-compliance-documentation", - "description": "Concourse pipeline for deploying compliance.cloud.gov", + "name": "template-form", + "description": "a form generator from handlebars markdown templates", "permissions": { "licenses": null, "usageType": "openSource", @@ -18901,49 +22785,54 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-compliance-documentation", + "repositoryURL": "https://github.com/18F/template-form", "laborHours": 0, "organization": "18F" }, { - "name": "epa-notice", - "description": "Web interface for viewing and commenting on proposed changes to federal regulations", + "name": "cf-env-parser-buildpack", + "description": "A buildpack designed to pull environment variables out of VCAP_SERVICES when using a user-provided services on Cloud Foundry.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/epa-notice", + "repositoryURL": "https://github.com/18F/cf-env-parser-buildpack", "laborHours": 0, "organization": "18F" }, { - "name": "cg-pipeline-tasks", - "description": "Concourse common tasks", + "name": "identity-saml-sinatra", + "description": "Mock relying party (user app) to send requests to ID server", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-pipeline-tasks", + "repositoryURL": "https://github.com/18F/identity-saml-sinatra", "laborHours": 0, "organization": "18F" }, { - "name": "ffd-microsite", - "description": "An informational website about the Federal Front Door project.", + "name": "microviz", + "description": "microviz", "permissions": { "licenses": null, "usageType": "openSource", @@ -18955,15 +22844,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ffd-microsite", + "repositoryURL": "https://github.com/18F/microviz", "laborHours": 0, "organization": "18F" }, { - "name": "standup-slack-bot", - "description": "A Slack bot to streamline team standup without disturbing the overall flow of conversation", + "name": "bayeshack-interior", + "description": "Starter kit for the Bayes Hack 2016 interior prompt http://bayeshack.org/interior.html", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -18973,31 +22867,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/standup-slack-bot", + "repositoryURL": "https://github.com/18F/bayeshack-interior", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-monitoring", - "description": "cg-deploy-monitoring", + "name": "vote-gov", + "description": "This repository contains the files and infrastructure to run the current vote.gov website.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "hugo" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-monitoring", + "repositoryURL": "https://github.com/18F/vote-gov", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-concourse", - "description": "Manifests and pipeline for deploying Concourse.ci", + "name": "frontend-slides", + "description": "Front End Guild presentations.", "permissions": { "licenses": null, "usageType": "openSource", @@ -19009,31 +22903,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-concourse", + "repositoryURL": "https://github.com/18F/frontend-slides", "laborHours": 0, "organization": "18F" }, { - "name": "npm-bootstrap", - "description": "Bootstrap a directory as an npm module", + "name": "retext-18f", + "description": "Tool to check text for common usage problems and differences from 18F style guidelines.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/npm-bootstrap", + "repositoryURL": "https://github.com/18F/retext-18f", "laborHours": 0, "organization": "18F" }, { - "name": "cg-grafana-boshrelease", - "description": "a BOSH release for the Grafana metrics dashboard", + "name": "cg-tripwire-boshrelease", + "description": "cg-tripwire-boshrelease", "permissions": { "licenses": null, "usageType": "openSource", @@ -19045,13 +22939,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-grafana-boshrelease", + "repositoryURL": "https://github.com/18F/cg-tripwire-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-cf", - "description": "Concourse pipeline and manifests for the 18F Cloud Foundry deployment.", + "name": "golang_workshop_irl_2016", + "description": "golang_workshop_irl_2016", "permissions": { "licenses": null, "usageType": "openSource", @@ -19063,20 +22957,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-cf", + "repositoryURL": "https://github.com/18F/golang_workshop_irl_2016", "laborHours": 0, "organization": "18F" }, { - "name": "cg-influxdb-boshrelease", - "description": "cg-influxdb-boshrelease", + "name": "e-manifest-spring", + "description": "Java/Spring version of the EPA e-Manifest project", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -19086,20 +22975,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-influxdb-boshrelease", + "repositoryURL": "https://github.com/18F/e-manifest-spring", "laborHours": 0, "organization": "18F" }, { - "name": "team-browser", - "description": "Interface to team-api-server", + "name": "openopps-design", + "description": "separate repository for design artifacts, since they can be large", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -19109,13 +22993,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/team-browser", + "repositoryURL": "https://github.com/18F/openopps-design", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-discourse", - "description": "Concourse pipeline for the 18F discourse deployment.", + "name": "cg-deck-docker-images", + "description": "Contains various docker images for cg-deck", "permissions": { "licenses": null, "usageType": "openSource", @@ -19127,13 +23011,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-discourse", + "repositoryURL": "https://github.com/18F/cg-deck-docker-images", "laborHours": 0, "organization": "18F" }, { - "name": "knowledge-sharing-toolkit", - "description": "[EXPERIMENTAL] Docker components for the knowledge sharing toolkit", + "name": "cg-uaa-release", + "description": "DEPRECIATED / NEVER USED IN PRODUCTION. You probably want cg-cf-release", "permissions": { "licenses": null, "usageType": "openSource", @@ -19145,13 +23029,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/knowledge-sharing-toolkit", + "repositoryURL": "https://github.com/18F/cg-uaa-release", "laborHours": 0, "organization": "18F" }, { - "name": "cg-collectd-boshrelease", - "description": "cg-collectd-boshrelease", + "name": "bug-bounty", + "description": "Internal documentation for TTS's bug bounty.", "permissions": { "licenses": null, "usageType": "openSource", @@ -19163,13 +23047,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-collectd-boshrelease", + "repositoryURL": "https://github.com/18F/bug-bounty", "laborHours": 0, "organization": "18F" }, { - "name": "mocha-casperjs", - "description": "Write CasperJS tests using Mocha", + "name": "cg-uaa-extras", + "description": "This application provides for platform invitations using the /invite_users UAA API endpoint and allowing password resets for cloud.gov IdP users", "permissions": { "licenses": null, "usageType": "openSource", @@ -19181,31 +23065,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/mocha-casperjs", + "repositoryURL": "https://github.com/18F/cg-uaa-extras", "laborHours": 0, "organization": "18F" }, { - "name": "travel-form", - "description": "A travel authorization form", + "name": "acq-trello-listener", + "description": "AcqStack Trello listener", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/travel-form", + "repositoryURL": "https://github.com/18F/acq-trello-listener", "laborHours": 0, "organization": "18F" }, { - "name": "deduplicate-tock-float", - "description": "A command line interface to highlight projects with similar names in Tock and Float", + "name": "projects", + "description": "[WIP] A collection of our projects, past and present", "permissions": { "licenses": null, "usageType": "openSource", @@ -19217,13 +23101,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/deduplicate-tock-float", + "repositoryURL": "https://github.com/18F/projects", "laborHours": 0, "organization": "18F" }, { - "name": "pa11y-rails", - "description": "A rails app that tracks 18F's various app's accessibility using the pa11y CLI tool. ", + "name": "cg-provision", + "description": "cloud.gov infrastructure provisioning and deployment", "permissions": { "licenses": null, "usageType": "openSource", @@ -19235,31 +23119,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pa11y-rails", + "repositoryURL": "https://github.com/18F/cg-provision", "laborHours": 0, "organization": "18F" }, { - "name": "huginn", - "description": "Build agents that monitor and act on your behalf. Your agents are standing by!", + "name": "identity-dashboard", + "description": "Identity developer dashboard", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/huginn", + "repositoryURL": "https://github.com/18F/identity-dashboard", "laborHours": 0, "organization": "18F" }, { - "name": "elasticsearch-indexstager-gem", - "description": "manage Elasticsearch indexes using staging pattern", + "name": "transformation-research", + "description": "Best practices in government digital transformation", "permissions": { "licenses": null, "usageType": "openSource", @@ -19271,13 +23155,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/elasticsearch-indexstager-gem", + "repositoryURL": "https://github.com/18F/transformation-research", "laborHours": 0, "organization": "18F" }, { - "name": "cg-common-resource", - "description": "Cloud.gov common concourse resource", + "name": "humans-of-18f", + "description": "A simple quiz to learn who everybody at 18F is.", "permissions": { "licenses": null, "usageType": "openSource", @@ -19289,15 +23173,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-common-resource", + "repositoryURL": "https://github.com/18F/humans-of-18f", "laborHours": 0, "organization": "18F" }, { - "name": "us-federal-holidays", - "description": "A Node.js package for getting US federal holidays for a given year, or determining if a date is a federal holiday.", + "name": "cg-agent-q", + "description": "Issues and artifacts related to managed services for the cloud.gov platform.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -19307,13 +23196,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/us-federal-holidays", + "repositoryURL": "https://github.com/18F/cg-agent-q", "laborHours": 0, "organization": "18F" }, { - "name": "onena", - "description": "A CLI tool to reconcile Tock and Float data", + "name": "cg-encrypt-blobstore-boshrelease", + "description": "[DEPRECATED] A cron job to encrypt s3 buckets using aws-cli", "permissions": { "licenses": null, "usageType": "openSource", @@ -19325,13 +23214,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/onena", + "repositoryURL": "https://github.com/18F/cg-encrypt-blobstore-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-logsearch", - "description": "Concourse pipeline and manifests for the 18F cloud.gov ELK deployment.", + "name": "innovation-toolkit-demo", + "description": "A work-in-progress prototype for the Innovation Toolkit discovery sprint (innovation-toolkit). Hat tip to the USDS Playbook.", "permissions": { "licenses": null, "usageType": "openSource", @@ -19343,13 +23232,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-logsearch", + "repositoryURL": "https://github.com/18F/innovation-toolkit-demo", "laborHours": 0, "organization": "18F" }, { - "name": "videochat-mute-manager", - "description": "A chrome extension to automatically mute videochats and easily toggle it on/off afterwards", + "name": "cf-cdn-service-broker", + "description": "A Cloud Foundry service broker for CloudFront and Let's Encrypt", "permissions": { "licenses": null, "usageType": "openSource", @@ -19361,13 +23250,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/videochat-mute-manager", + "repositoryURL": "https://github.com/18F/cf-cdn-service-broker", "laborHours": 0, "organization": "18F" }, { - "name": "drmaas", - "description": "DRMaaS demo for NTIS", + "name": "onepage-opensource", + "description": "Prototype for a one page resource on the topic of open source software", "permissions": { "licenses": null, "usageType": "openSource", @@ -19379,13 +23268,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/drmaas", + "repositoryURL": "https://github.com/18F/onepage-opensource", "laborHours": 0, "organization": "18F" }, { - "name": "influxdb-firehose-nozzle", - "description": "CF component to forward metrics from the Loggregator Firehose to DataDog", + "name": "runPa11yScans", + "description": "Scripts for running the Pa11y scan over a list of domains using multiple threads", "permissions": { "licenses": null, "usageType": "openSource", @@ -19397,31 +23286,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/influxdb-firehose-nozzle", + "repositoryURL": "https://github.com/18F/runPa11yScans", "laborHours": 0, "organization": "18F" }, { - "name": "influxdb-firehose-nozzle-release", - "description": "BOSH release for datadog-firehose-nozzle", + "name": "identity-dev-docs", + "description": "Login.gov developer documentation", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/influxdb-firehose-nozzle-release", + "repositoryURL": "https://github.com/18F/identity-dev-docs", "laborHours": 0, "organization": "18F" }, { - "name": "seal", - "description": "A Slack bot that publishes open pull requests daily to language-specific channels.", + "name": "cg-design", + "description": "This repo contains all the historical and current design and user research artifacts for cloud.gov", "permissions": { "licenses": null, "usageType": "openSource", @@ -19433,13 +23322,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/seal", + "repositoryURL": "https://github.com/18F/cg-design", "laborHours": 0, "organization": "18F" }, { - "name": "cg-postmortems", - "description": "How we ensure we are always learning", + "name": "raktabija", + "description": "Bootstrap AWS account with Terraform and Go.CD", "permissions": { "licenses": null, "usageType": "openSource", @@ -19451,13 +23340,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-postmortems", + "repositoryURL": "https://github.com/18F/raktabija", "laborHours": 0, "organization": "18F" }, { - "name": "coffeemate", - "description": "The virtual coffee matchmaking slackbot", + "name": "cg-bootstrap-concourse-ami", + "description": "A packer template and associated resources for creating an AMI that runs a standalone concourse installation suitable for bootstrapping more complex infrastructure", "permissions": { "licenses": null, "usageType": "openSource", @@ -19469,13 +23358,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/coffeemate", + "repositoryURL": "https://github.com/18F/cg-bootstrap-concourse-ami", "laborHours": 0, "organization": "18F" }, { - "name": "cg-s3-service-broker", - "description": "DEPRECATED. You want: https://github.com/cloudfoundry-community/s3-broker", + "name": "svg4everybody", + "description": "Use external SVG spritemaps today", "permissions": { "licenses": null, "usageType": "openSource", @@ -19487,43 +23376,39 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-s3-service-broker", + "repositoryURL": "https://github.com/18F/svg4everybody", "laborHours": 0, "organization": "18F" }, { - "name": "cg-riemann-boshrelease", - "description": "cg-riemann-boshrelease", + "name": "stylelint-rules", + "description": "A style (CSS, Sass) linter for the 18F style guide", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" } ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "stylelint", + "stylelint-config" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-riemann-boshrelease", + "repositoryURL": "https://github.com/18F/stylelint-rules", "laborHours": 0, "organization": "18F" }, { - "name": "climate-labs", - "description": "A climate information user study and report", + "name": "web-design-standards-ux", + "description": "A repository of all the user research related to the Draft US Web Design Standards", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -19533,13 +23418,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/climate-labs", + "repositoryURL": "https://github.com/18F/web-design-standards-ux", "laborHours": 0, "organization": "18F" }, { - "name": "joining-epa", - "description": "Recruiting as a service (RaaS) page for EPA. Based on joining-18f.", + "name": "pa11y-lambda", + "description": "attempt at getting pa11y running in AWS Lambda", "permissions": { "licenses": null, "usageType": "openSource", @@ -19551,13 +23436,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/joining-epa", + "repositoryURL": "https://github.com/18F/pa11y-lambda", "laborHours": 0, "organization": "18F" }, { - "name": "s3-resource-simple", - "description": "Concourse CI Resource for uploading files to S3", + "name": "cg-awslogs-boshrelease", + "description": "cg-awslogs-boshrelease", "permissions": { "licenses": null, "usageType": "openSource", @@ -19569,34 +23454,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/s3-resource-simple", + "repositoryURL": "https://github.com/18F/cg-awslogs-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "bpa-fedramp-dashboard", - "description": "FedRAMP Dashboard BPA Order", + "name": "vote-gov-ux", + "description": "Research repo for all the user research being conducted on Vote.usa.gov.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "agile-bpa", - "fedramp", - "government", - "gsa" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bpa-fedramp-dashboard", + "repositoryURL": "https://github.com/18F/vote-gov-ux", "laborHours": 0, "organization": "18F" }, { - "name": "concourse-http-api-resource", - "description": "Concourse resource to allow interaction with (simple) HTTP API's.", + "name": "openopps-platform", + "description": "Open Opportunities open source platform", "permissions": { "licenses": null, "usageType": "openSource", @@ -19608,13 +23490,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/concourse-http-api-resource", + "repositoryURL": "https://github.com/18F/openopps-platform", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-admin-ui", - "description": "cg-deploy-admin-ui", + "name": "pa11y-lambda-cluster", + "description": "Simultaneously run many pa11y scans using AWS Lambda", "permissions": { "licenses": null, "usageType": "openSource", @@ -19626,18 +23508,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-admin-ui", + "repositoryURL": "https://github.com/18F/pa11y-lambda-cluster", "laborHours": 0, "organization": "18F" }, { - "name": "pages-shell", - "description": "An empty shell to build other pages.18f.gov sites from.", + "name": "botkit", + "description": "Botkit is a toolkit for making bot applications", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" } ], "usageType": "openSource", @@ -19649,31 +23531,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pages-shell", + "repositoryURL": "https://github.com/18F/botkit", "laborHours": 0, "organization": "18F" }, { - "name": "fec-cloud", - "description": "Should FEC move all the things to The Cloud? We'll see.", + "name": "project-planner", + "description": "Experimental site to provide IT staff visibility of projects, vendors, teams, and staff over time", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "drupal" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-cloud", + "repositoryURL": "https://github.com/18F/project-planner", "laborHours": 0, "organization": "18F" }, { - "name": "pulse-accessibility-data", - "description": "Data and scripts for collecting accessibility data across .gov domains", + "name": "dotgov-list-node", + "description": "(NOT MAINTAINED.)", "permissions": { "licenses": null, "usageType": "openSource", @@ -19685,13 +23567,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pulse-accessibility-data", + "repositoryURL": "https://github.com/18F/dotgov-list-node", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-influxdb-firehose-nozzle", - "description": "[DEPRECATED]", + "name": "wg-security", + "description": "wg-security", "permissions": { "licenses": null, "usageType": "openSource", @@ -19703,13 +23585,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-influxdb-firehose-nozzle", + "repositoryURL": "https://github.com/18F/wg-security", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-bosh", - "description": "18F deployment manifests and pipelines for BOSH", + "name": "18f-reveal.js-theme", + "description": "A reveal.js theme with 18F branding.", "permissions": { "licenses": null, "usageType": "openSource", @@ -19721,18 +23603,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-bosh", + "repositoryURL": "https://github.com/18F/18f-reveal.js-theme", "laborHours": 0, "organization": "18F" }, { - "name": "hub-v2", - "description": "The hub is becoming a search engine that finds content, wherever it lives, and displays it in search results. ", + "name": "concourse-pipeline-resource", + "description": "Concourse resource for interacting with concourse pipelines", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" } ], "usageType": "openSource", @@ -19744,13 +23626,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hub-v2", + "repositoryURL": "https://github.com/18F/concourse-pipeline-resource", "laborHours": 0, "organization": "18F" }, { - "name": "heroku-buildpack-apt", - "description": "heroku-buildpack-apt", + "name": "cg-deploy-bots", + "description": "DEPRECIATED. These aren't the droids you're looking for. Moved to https://github.com/18F/cg-sandbox-bot", "permissions": { "licenses": null, "usageType": "openSource", @@ -19762,13 +23644,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/heroku-buildpack-apt", + "repositoryURL": "https://github.com/18F/cg-deploy-bots", "laborHours": 0, "organization": "18F" }, { - "name": "tts-public-comments", - "description": "Collection of public comments that TTS makes on proposed federal policies.", + "name": "acqstackdb", + "description": "acqstackdb", "permissions": { "licenses": null, "usageType": "openSource", @@ -19780,49 +23662,49 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-public-comments", + "repositoryURL": "https://github.com/18F/acqstackdb", "laborHours": 0, "organization": "18F" }, { - "name": "transformation-services", - "description": "A repository for Transformation Services", + "name": "identity-devops", + "description": "Chef, Packer, and Terraform configs for login.gov", "permissions": { "licenses": null, - "usageType": "openSource", + "usageType": "governmentWideReuse", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/transformation-services", + "repositoryURL": null, "laborHours": 0, "organization": "18F" }, { - "name": "writing-lab-guide", - "description": "A guide to 18F's internal Writing Lab for submitters and editors ", + "name": "cg-deploy-docker-swarm", + "description": "[DEPRECATED] Deployment for Docker Swarm Broker", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/writing-lab-guide", + "repositoryURL": "https://github.com/18F/cg-deploy-docker-swarm", "laborHours": 0, "organization": "18F" }, { - "name": "NTIS-Data-Services-Project", - "description": "Reimagining the services and data products of the National Technical Information Service (NTIS), Department of Commerce", + "name": "request-circuit", + "description": "This is an npm module that wraps requests in a CircuitBreaker pattern and promises", "permissions": { "licenses": null, "usageType": "openSource", @@ -19834,36 +23716,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/NTIS-Data-Services-Project", + "repositoryURL": "https://github.com/18F/request-circuit", "laborHours": 0, "organization": "18F" }, { - "name": "atc-trello", - "description": "Air Traffic Control Trello listener", + "name": "identity-saml-rails", + "description": "Test Service Provider for the Identity project", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/atc-trello", + "repositoryURL": "https://github.com/18F/identity-saml-rails", "laborHours": 0, "organization": "18F" }, { - "name": "meta", - "description": "Odds and Ends about 18F and the people who live there", + "name": "admin-ui-boshrelease", + "description": "admin-ui-boshrelease", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" } ], "usageType": "openSource", @@ -19875,31 +23757,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/meta", - "laborHours": 0, - "organization": "18F" - }, - { - "name": "concourse-http-resource", - "description": "Concourse resource for fetching files from versioned directories on a HTTP endpoint.", - "permissions": { - "licenses": null, - "usageType": "openSource", - "exemptionText": null - }, - "tags": [ - "18F" - ], - "contact": { - "email": "18f@gsa.gov" - }, - "repositoryURL": "https://github.com/18F/concourse-http-resource", + "repositoryURL": "https://github.com/18F/admin-ui-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cg-nessus-agent-boshrelease", - "description": "Bosh release for the nessus agent", + "name": "html-proofer-docker", + "description": "HTML validation, made easy", "permissions": { "licenses": null, "usageType": "openSource", @@ -19911,13 +23775,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-nessus-agent-boshrelease", + "repositoryURL": "https://github.com/18F/html-proofer-docker", "laborHours": 0, "organization": "18F" }, { - "name": "pdfhook", - "description": "A Python web application for converting PDF forms into PDF-filling APIs", + "name": "sslyze-docker", + "description": "SSL scanning made easy through SSLyze", "permissions": { "licenses": null, "usageType": "openSource", @@ -19929,13 +23793,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pdfhook", + "repositoryURL": "https://github.com/18F/sslyze-docker", "laborHours": 0, "organization": "18F" }, { - "name": "hubot-scripts-us-federal-holiday", - "description": "Get the next US federal holiday", + "name": "phantomas-docker", + "description": "web performance metrics monitoring made easy using phantomas", "permissions": { "licenses": null, "usageType": "openSource", @@ -19947,13 +23811,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hubot-scripts-us-federal-holiday", + "repositoryURL": "https://github.com/18F/phantomas-docker", "laborHours": 0, "organization": "18F" }, { - "name": "pa11y-reporter-full-json", - "description": "A pa11y reporter to extend the 1.0 format to include additional fields", + "name": "site-inspector-docker", + "description": "[DEPRECATED] site technology and capability scanning made easy through site-inspector", "permissions": { "licenses": null, "usageType": "openSource", @@ -19965,18 +23829,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pa11y-reporter-full-json", + "repositoryURL": "https://github.com/18F/site-inspector-docker", "laborHours": 0, "organization": "18F" }, { - "name": "htsql-docker", - "description": "Dockerfiles for HTSQL servers", + "name": "cg-clamav-boshrelease", + "description": "cg-clamav-boshrelease", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" } ], "usageType": "openSource", @@ -19988,49 +23852,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/htsql-docker", - "laborHours": 0, - "organization": "18F" - }, - { - "name": "14c-prototype", - "description": "14c-prototype", - "permissions": { - "licenses": null, - "usageType": "openSource", - "exemptionText": null - }, - "tags": [ - "18F" - ], - "contact": { - "email": "18f@gsa.gov" - }, - "repositoryURL": "https://github.com/18F/14c-prototype", - "laborHours": 0, - "organization": "18F" - }, - { - "name": "gh-traffic", - "description": "Get Github traffic", - "permissions": { - "licenses": null, - "usageType": "openSource", - "exemptionText": null - }, - "tags": [ - "18F" - ], - "contact": { - "email": "18f@gsa.gov" - }, - "repositoryURL": "https://github.com/18F/gh-traffic", + "repositoryURL": "https://github.com/18F/cg-clamav-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "sandman2", - "description": "sandman2", + "name": "security-disclosures", + "description": "security-disclosures", "permissions": { "licenses": null, "usageType": "openSource", @@ -20042,13 +23870,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sandman2", + "repositoryURL": "https://github.com/18F/security-disclosures", "laborHours": 0, "organization": "18F" }, { - "name": "ogp-payroll", - "description": "Front end for the OGP Payroll Reporting prototype project", + "name": "cg-nessus-manager-boshrelease", + "description": "BOSH release for Nessus Manager", "permissions": { "licenses": null, "usageType": "openSource", @@ -20060,43 +23888,33 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ogp-payroll", + "repositoryURL": "https://github.com/18F/cg-nessus-manager-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "ogp-payroll-server", - "description": "Back-end for the OGP Payroll prototype", + "name": "identity-proofer-gem", + "description": "delegate ID proofing to vendors", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ogp-payroll-server", + "repositoryURL": "https://github.com/18F/identity-proofer-gem", "laborHours": 0, "organization": "18F" }, { - "name": "cg-product", - "description": "Program-level artifacts, workflow and issues for cloud.gov", + "name": "cg-deploy-nessus-manager", + "description": "cg-deploy-nessus-manager", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -20106,13 +23924,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-product", + "repositoryURL": "https://github.com/18F/cg-deploy-nessus-manager", "laborHours": 0, "organization": "18F" }, { - "name": "pa11y-docker", - "description": "Minimal Docker setup to run pa11y", + "name": "cg-riemannc-boshrelease", + "description": "cg-riemannc-boshrelease", "permissions": { "licenses": null, "usageType": "openSource", @@ -20124,15 +23942,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pa11y-docker", + "repositoryURL": "https://github.com/18F/cg-riemannc-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "ntis-gov", - "description": "Prototype for NTIS website", + "name": "firehose-to-syslog", + "description": "Send firehose events from Cloud Foundry to syslog.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -20142,13 +23965,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ntis-gov", + "repositoryURL": "https://github.com/18F/firehose-to-syslog", "laborHours": 0, "organization": "18F" }, { - "name": "c2-api-client-ruby", - "description": "C2 API client for Ruby", + "name": "digitalaccelerator", + "description": "Digital Acquisition Pilot Guide", "permissions": { "licenses": null, "usageType": "openSource", @@ -20160,33 +23983,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/c2-api-client-ruby", + "repositoryURL": "https://github.com/18F/digitalaccelerator", "laborHours": 0, "organization": "18F" }, { - "name": "chat", - "description": "the little site that connects 18F to the public", + "name": "cg-newrelic-boshrelease", + "description": "[DEPRECATED] Pipeline for NewRelic BOSH release used in cloud.gov", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/chat", + "repositoryURL": "https://github.com/18F/cg-newrelic-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cg-application-ssp-example", - "description": "[DEPRECATED/OUTDATED] A generic SSP setup example for cloud.gov-based applications.", + "name": "fedramp-dashboard", + "description": "fedramp-dashboard", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -20196,31 +24024,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-application-ssp-example", + "repositoryURL": "https://github.com/18F/fedramp-dashboard", "laborHours": 0, "organization": "18F" }, { - "name": "rugged-devops", - "description": "18F Guide to Rugged DevOps ", + "name": "eregs-platform", + "description": "Planning and configuration for eRegs as a Platform", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/rugged-devops", + "repositoryURL": "https://github.com/18F/eregs-platform", "laborHours": 0, "organization": "18F" }, { - "name": "strategy", - "description": "A place for strategy chapter members and other 18F folk to find information about being on and working with the strategy team.", + "name": "ED-API-Program", + "description": "An API program for the Department of Education", "permissions": { "licenses": null, "usageType": "openSource", @@ -20232,31 +24060,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/strategy", + "repositoryURL": "https://github.com/18F/ED-API-Program", "laborHours": 0, "organization": "18F" }, { - "name": "acq-templates", - "description": "A collection of templatized standard 18F documents, written in Markdown with Handlebars templating.", + "name": "state-faq", + "description": "[Deprecated] A site with frequently asked questions from 18F's state child welfare partners", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acq-templates", + "repositoryURL": "https://github.com/18F/state-faq", "laborHours": 0, "organization": "18F" }, { - "name": "cap-api-docker", - "description": "Minimal Docker setup to access the CAP API via Ruby", + "name": "s3-encryptor", + "description": "Encrypt all objects in all buckets because... Encrypt all the things!", "permissions": { "licenses": null, "usageType": "openSource", @@ -20268,13 +24096,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cap-api-docker", + "repositoryURL": "https://github.com/18F/s3-encryptor", "laborHours": 0, "organization": "18F" }, { - "name": "GSA-Certifications", - "description": "GSA specific certifications for CM", + "name": "acquisitions", + "description": "acquisitions", "permissions": { "licenses": null, "usageType": "openSource", @@ -20286,18 +24114,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/GSA-Certifications", + "repositoryURL": "https://github.com/18F/acquisitions", "laborHours": 0, "organization": "18F" }, { - "name": "cg-atlas", - "description": "Repository hosting issues and artifacts related to operations of the cloud.gov platform", + "name": "cg-snort-boshrelease", + "description": "BOSH Release for Snort IDS", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" } ], "usageType": "openSource", @@ -20309,31 +24137,41 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-atlas", + "repositoryURL": "https://github.com/18F/cg-snort-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "trello-webhook-server", - "description": "A Trello webhook server", + "name": "bpa-DOL-WHD-14-c", + "description": "The 14(c) system will become a modern, digital-first service. Applicants will be provided an intuitive online experience, guiding them through the information needed to complete their application correctly.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "14c-application", + "14c-certificate", + "18f", + "agile-bpa", + "disability", + "dol", + "forms", + "government", + "labor", + "tts", + "whd" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/trello-webhook-server", + "repositoryURL": "https://github.com/18F/bpa-DOL-WHD-14-c", "laborHours": 0, "organization": "18F" }, { - "name": "wds-ia-summit-presentation", - "description": "wds-ia-summit-presentation", + "name": "acq-templates-from-trello", + "description": "Fill in templated markdown files from Trello", "permissions": { "licenses": null, "usageType": "openSource", @@ -20345,13 +24183,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wds-ia-summit-presentation", + "repositoryURL": "https://github.com/18F/acq-templates-from-trello", "laborHours": 0, "organization": "18F" }, { - "name": "chandika", - "description": "Cloud Application Registry", + "name": "fec-shipper", + "description": "Code for loading legal data into openFEC api", "permissions": { "licenses": null, "usageType": "openSource", @@ -20363,13 +24201,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/chandika", + "repositoryURL": "https://github.com/18F/fec-shipper", "laborHours": 0, "organization": "18F" }, { - "name": "django-pg-fts", - "description": "Implementation PostgeSQL for Full Text Search for Django >= 1.7", + "name": "reheader", + "description": "CSV reading with inconsistent headers", "permissions": { "licenses": null, "usageType": "openSource", @@ -20381,34 +24219,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-pg-fts", + "repositoryURL": "https://github.com/18F/reheader", "laborHours": 0, "organization": "18F" }, { - "name": "identity-idv", - "description": "18f mock identity verification service - DEPRECATED", + "name": "cookiecutter-pypackage", + "description": "Cookiecutter template for a Python package.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov", - "login-gov-deprecated" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-idv", + "repositoryURL": "https://github.com/18F/cookiecutter-pypackage", "laborHours": 0, "organization": "18F" }, { - "name": "legalese", - "description": "experimental legal language checker for third-party services", + "name": "trello_utils", + "description": "misc cli tools for trello functionality", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -20418,32 +24260,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/legalese", + "repositoryURL": "https://github.com/18F/trello_utils", "laborHours": 0, "organization": "18F" }, { - "name": "cfpb-eprocurement", - "description": "Procurement prototypes for CFPB", + "name": "identity-saml-python", + "description": "An example service provider (SP) written in python that integrates with 18F's identity-idp", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "capital-framework", - "cfpb" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cfpb-eprocurement", + "repositoryURL": "https://github.com/18F/identity-saml-python", "laborHours": 0, "organization": "18F" }, { - "name": "cg-ossec-boshrelease", - "description": "(experimental) OSSEC Intruder Detection for BOSH / Cloud Foundry", + "name": "talent-reporting-product", + "description": "This repo is for the development of a talent oriented reporting solution.", "permissions": { "licenses": null, "usageType": "openSource", @@ -20455,13 +24296,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-ossec-boshrelease", + "repositoryURL": "https://github.com/18F/talent-reporting-product", "laborHours": 0, "organization": "18F" }, { - "name": "template-form", - "description": "a form generator from handlebars markdown templates", + "name": "digital-acquisition-playbook", + "description": "Guidelines for digital acquistions", "permissions": { "licenses": null, "usageType": "openSource", @@ -20473,13 +24314,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/template-form", + "repositoryURL": "https://github.com/18F/digital-acquisition-playbook", "laborHours": 0, "organization": "18F" }, { - "name": "cf-env-parser-buildpack", - "description": "A buildpack designed to pull environment variables out of VCAP_SERVICES when using a user-provided services on Cloud Foundry.", + "name": "tock-blocks", + "description": "A simple command line tool to better understand your major projects in Tock", "permissions": { "licenses": null, "usageType": "openSource", @@ -20491,36 +24332,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-env-parser-buildpack", + "repositoryURL": "https://github.com/18F/tock-blocks", "laborHours": 0, "organization": "18F" }, { - "name": "identity-sp-sinatra", - "description": "Mock relying party (user app) to send requests to ID server", + "name": "clone_army", + "description": "Keep local clones of all an org or user's repositories", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-sp-sinatra", + "repositoryURL": "https://github.com/18F/clone_army", "laborHours": 0, "organization": "18F" }, { - "name": "microviz", - "description": "microviz", + "name": "cg-deploy-diego", + "description": "[DEPRECATED] BOSH manifests and Concourse pipeline for 18F's Diego deployment", "permissions": { "licenses": null, "usageType": "openSource", @@ -20532,13 +24368,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/microviz", + "repositoryURL": "https://github.com/18F/cg-deploy-diego", "laborHours": 0, "organization": "18F" }, { - "name": "bayeshack-interior", - "description": "Starter kit for the Bayes Hack 2016 interior prompt http://bayeshack.org/interior.html", + "name": "dns", + "description": "DNS configuration for domains managed by GSA TTS", "permissions": { "licenses": null, "usageType": "openSource", @@ -20550,49 +24386,55 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bayeshack-interior", + "repositoryURL": "https://github.com/18F/dns", "laborHours": 0, "organization": "18F" }, { - "name": "vote-gov", - "description": "This repository contains the files and infrastructure to run the current vote.gov website.", + "name": "react-redux-event-demo", + "description": "A basic technology demo of some javascript frameworks in a purely client application.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "hugo" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/vote-gov", + "repositoryURL": "https://github.com/18F/react-redux-event-demo", "laborHours": 0, "organization": "18F" }, { - "name": "frontend-slides", - "description": "Front End Guild presentations.", + "name": "bpa-identity-management", + "description": "Procurement Documents for Task Order on the Agile BPA", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "agile-bpa", + "government" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/frontend-slides", + "repositoryURL": "https://github.com/18F/bpa-identity-management", "laborHours": 0, "organization": "18F" }, { - "name": "retext-18f", - "description": "Tool to check text for common usage problems and differences from 18F style guidelines.", + "name": "paper-rhino", + "description": "Prototype for new NTIS Document Service Project", "permissions": { "licenses": null, "usageType": "openSource", @@ -20604,13 +24446,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/retext-18f", + "repositoryURL": "https://github.com/18F/paper-rhino", "laborHours": 0, "organization": "18F" }, { - "name": "cg-tripwire-boshrelease", - "description": "cg-tripwire-boshrelease", + "name": "cg-fake-uaa", + "description": "A fake User Account and Authentication (UAA) server for cloud.gov.", "permissions": { "licenses": null, "usageType": "openSource", @@ -20622,15 +24464,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-tripwire-boshrelease", + "repositoryURL": "https://github.com/18F/cg-fake-uaa", "laborHours": 0, "organization": "18F" }, { - "name": "golang_workshop_irl_2016", - "description": "golang_workshop_irl_2016", + "name": "cf-app-events-logger", + "description": "Logs data from the CF /v2/events API", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -20640,13 +24487,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/golang_workshop_irl_2016", + "repositoryURL": "https://github.com/18F/cf-app-events-logger", "laborHours": 0, "organization": "18F" }, { - "name": "e-manifest-spring", - "description": "Java/Spring version of the EPA e-Manifest project", + "name": "django-admin508", + "description": "Improved accessibility for Django's admin interface.", "permissions": { "licenses": null, "usageType": "openSource", @@ -20658,69 +24505,79 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/e-manifest-spring", + "repositoryURL": "https://github.com/18F/django-admin508", "laborHours": 0, "organization": "18F" }, { - "name": "openopps-design", - "description": "separate repository for design artifacts, since they can be large", + "name": "gov-repo-langs", + "description": "A tool for fetching dev language metadata about US government repos", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/openopps-design", + "repositoryURL": "https://github.com/18F/gov-repo-langs", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deck-docker-images", - "description": "Contains various docker images for cg-deck", + "name": "hhs-acf-uc-api", + "description": "API for the Dept. of Health and Human Services: Administration for Children and Families' Unaccompanied Children database", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deck-docker-images", + "repositoryURL": "https://github.com/18F/hhs-acf-uc-api", "laborHours": 0, "organization": "18F" }, { - "name": "cg-uaa-release", - "description": "DEPRECIATED / NEVER USED IN PRODUCTION. You probably want cg-cf-release", + "name": "hhs-acf-uc-dashboard", + "description": "Dashboard for the Dept. of Health and Human Services: Administration for Children and Families' Unaccompanied Children database", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-uaa-release", + "repositoryURL": "https://github.com/18F/hhs-acf-uc-dashboard", "laborHours": 0, "organization": "18F" }, { - "name": "bug-bounty", - "description": "Internal documentation for TTS's bug bounty.", + "name": "cookiecutter-django", + "description": "Cookiecutter Django is a framework for jumpstarting production-ready Django projects quickly.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -20730,13 +24587,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bug-bounty", + "repositoryURL": "https://github.com/18F/cookiecutter-django", "laborHours": 0, "organization": "18F" }, { - "name": "cg-uaa-extras", - "description": "This application provides for platform invitations using the /invite_users UAA API endpoint and allowing password resets for cloud.gov IdP users", + "name": "allregs", + "description": "[Experimental] All Regulations in the Code of Federal Regulations", "permissions": { "licenses": null, "usageType": "openSource", @@ -20748,33 +24605,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-uaa-extras", + "repositoryURL": "https://github.com/18F/allregs", "laborHours": 0, "organization": "18F" }, { - "name": "acq-trello-listener", - "description": "AcqStack Trello listener", + "name": "18f-education-discovery", + "description": "Research documentation and findings for the discovery research done for 18F Education in the summer of 2016. ", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acq-trello-listener", + "repositoryURL": "https://github.com/18F/18f-education-discovery", "laborHours": 0, "organization": "18F" }, { - "name": "projects", - "description": "[WIP] A collection of our projects, past and present", + "name": "cf-example-suitecrm", + "description": "[DEPRECATED / not maintained] Example of deploying SuiteCRM on Cloud Foundry", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/agpl-3.0", + "name": "AGPL-3.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -20784,13 +24646,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/projects", + "repositoryURL": "https://github.com/18F/cf-example-suitecrm", "laborHours": 0, "organization": "18F" }, { - "name": "cg-provision", - "description": "cloud.gov infrastructure provisioning and deployment", + "name": "rdbms_anonymizer", + "description": "Replace PII in a database with fictional data", "permissions": { "licenses": null, "usageType": "openSource", @@ -20802,13 +24664,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-provision", + "repositoryURL": "https://github.com/18F/rdbms_anonymizer", "laborHours": 0, "organization": "18F" }, { - "name": "identity-dashboard", - "description": "Identity developer dashboard", + "name": "identity-saml-java", + "description": "An example service provider (SP) written in Java that integrates with 18F's identity-idp", "permissions": { "licenses": null, "usageType": "openSource", @@ -20820,13 +24682,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-dashboard", + "repositoryURL": "https://github.com/18F/identity-saml-java", "laborHours": 0, "organization": "18F" }, { - "name": "transformation-research", - "description": "Best practices in government digital transformation", + "name": "quick-stats", + "description": "A few scripts used for pulling stats out of Github and Tock", "permissions": { "licenses": null, "usageType": "openSource", @@ -20838,54 +24700,52 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/transformation-research", + "repositoryURL": "https://github.com/18F/quick-stats", "laborHours": 0, "organization": "18F" }, { - "name": "humans-of-18f", - "description": "A simple quiz to learn who everybody at 18F is.", + "name": "marigold", + "description": "An experimental set of reusable components and patterns for making websites and applications at 18F/TTS.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "experimental" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/humans-of-18f", + "repositoryURL": "https://github.com/18F/marigold", "laborHours": 0, "organization": "18F" }, { - "name": "cg-agent-q", - "description": "Issues and artifacts related to managed services for the cloud.gov platform.", + "name": "bpa-opm-eqip", + "description": "bpa-opm-eqip", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "agile-bpa", + "eqip", + "government", + "opm" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-agent-q", + "repositoryURL": "https://github.com/18F/bpa-opm-eqip", "laborHours": 0, "organization": "18F" }, { - "name": "cg-encrypt-blobstore-boshrelease", - "description": "[DEPRECATED] A cron job to encrypt s3 buckets using aws-cli", + "name": "markov_bot", + "description": "Initial proof-of-concept markov chain for statistically exploring documentation ", "permissions": { "licenses": null, "usageType": "openSource", @@ -20897,13 +24757,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-encrypt-blobstore-boshrelease", + "repositoryURL": "https://github.com/18F/markov_bot", "laborHours": 0, "organization": "18F" }, { - "name": "innovation-toolkit-demo", - "description": "A work-in-progress prototype for the Innovation Toolkit discovery sprint (innovation-toolkit). Hat tip to the USDS Playbook.", + "name": "dynamoed", + "description": "Light dynamodb wrapper to take the pain out of terrible AWS param formats", "permissions": { "licenses": null, "usageType": "openSource", @@ -20915,15 +24775,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/innovation-toolkit-demo", + "repositoryURL": "https://github.com/18F/dynamoed", "laborHours": 0, "organization": "18F" }, { - "name": "cf-cdn-service-broker", - "description": "A Cloud Foundry service broker for CloudFront and Let's Encrypt", + "name": "riemann-firehose-nozzle", + "description": "riemann-firehose-nozzle", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -20933,31 +24798,32 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-cdn-service-broker", + "repositoryURL": "https://github.com/18F/riemann-firehose-nozzle", "laborHours": 0, "organization": "18F" }, { - "name": "onepage-opensource", - "description": "Prototype for a one page resource on the topic of open source software", + "name": "uswds-rails-gem", + "description": "Integrate the US Web Design Standards with your Rails application", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained", + "uswds" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/onepage-opensource", + "repositoryURL": "https://github.com/18F/uswds-rails-gem", "laborHours": 0, "organization": "18F" }, { - "name": "runPa11yScans", - "description": "Scripts for running the Pa11y scan over a list of domains using multiple threads", + "name": "cg-deploy-riemann-firehose-nozzle", + "description": "cg-deploy-riemann-firehose-nozzle", "permissions": { "licenses": null, "usageType": "openSource", @@ -20969,67 +24835,75 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/runPa11yScans", + "repositoryURL": "https://github.com/18F/cg-deploy-riemann-firehose-nozzle", "laborHours": 0, "organization": "18F" }, { - "name": "identity-dev-docs", - "description": "Login.gov developer documentation", + "name": "kubernetes-release", + "description": "BOSH release for Kubernetes", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-dev-docs", + "repositoryURL": "https://github.com/18F/kubernetes-release", "laborHours": 0, "organization": "18F" }, { - "name": "cg-design", - "description": "This repo contains all the historical and current design and user research artifacts for cloud.gov", + "name": "bosh-log-forwarder-boshrelease", + "description": "DEPRECATED", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-design", + "repositoryURL": "https://github.com/18F/bosh-log-forwarder-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "raktabija", - "description": "Bootstrap AWS account with Terraform and Go.CD", + "name": "felt-sass", + "description": "A Sass plugin for Felt", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "cssnext", + "felt", + "postcss", + "sass" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/raktabija", + "repositoryURL": "https://github.com/18F/felt-sass", "laborHours": 0, "organization": "18F" }, { - "name": "cg-bootstrap-concourse-ami", - "description": "A packer template and associated resources for creating an AMI that runs a standalone concourse installation suitable for bootstrapping more complex infrastructure", + "name": "felt-recipe-18F", + "description": "The 18F Felt recipe", "permissions": { "licenses": null, "usageType": "openSource", @@ -21041,13 +24915,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-bootstrap-concourse-ami", + "repositoryURL": "https://github.com/18F/felt-recipe-18F", "laborHours": 0, "organization": "18F" }, { - "name": "svg4everybody", - "description": "Use external SVG spritemaps today", + "name": "DCOI-recommendations", + "description": "Recommendations for Data Center Optimization Initiative - OMB M-16-19", "permissions": { "licenses": null, "usageType": "openSource", @@ -21059,37 +24933,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/svg4everybody", + "repositoryURL": "https://github.com/18F/DCOI-recommendations", "laborHours": 0, "organization": "18F" }, { - "name": "stylelint-rules", - "description": "A style (CSS, Sass) linter for the 18F style guide", + "name": "cg-deploy-kubernetes", + "description": "cg-deploy-kubernetes", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "stylelint", - "stylelint-config" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/stylelint-rules", + "repositoryURL": "https://github.com/18F/cg-deploy-kubernetes", "laborHours": 0, "organization": "18F" }, { - "name": "web-design-standards-ux", - "description": "A repository of all the user research related to the Draft US Web Design Standards", + "name": "share", + "description": "a peer to peer browser based file transfer tool", "permissions": { "licenses": null, "usageType": "openSource", @@ -21101,15 +24969,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/web-design-standards-ux", + "repositoryURL": "https://github.com/18F/share", "laborHours": 0, "organization": "18F" }, { - "name": "pa11y-lambda", - "description": "attempt at getting pa11y running in AWS Lambda", + "name": "kubernetes-broker", + "description": "Broker for kubernetes based services", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -21119,31 +24992,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pa11y-lambda", + "repositoryURL": "https://github.com/18F/kubernetes-broker", "laborHours": 0, "organization": "18F" }, { - "name": "cg-awslogs-boshrelease", - "description": "cg-awslogs-boshrelease", + "name": "identity-intro", + "description": "identity-intro", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-awslogs-boshrelease", + "repositoryURL": "https://github.com/18F/identity-intro", "laborHours": 0, "organization": "18F" }, { - "name": "vote-gov-ux", - "description": "Research repo for all the user research being conducted on Vote.usa.gov.", + "name": "saml_idp", + "description": "saml_idp", "permissions": { "licenses": null, "usageType": "openSource", @@ -21155,13 +25028,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/vote-gov-ux", + "repositoryURL": "https://github.com/18F/saml_idp", "laborHours": 0, "organization": "18F" }, { - "name": "openopps-platform", - "description": "Open Opportunities open source platform", + "name": "workshops-lab", + "description": "The goal of this repository is to share workshop facilitation methods, tools and best practices across the 18F team!", "permissions": { "licenses": null, "usageType": "openSource", @@ -21173,31 +25046,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/openopps-platform", + "repositoryURL": "https://github.com/18F/workshops-lab", "laborHours": 0, "organization": "18F" }, { - "name": "pa11y-lambda-cluster", - "description": "Simultaneously run many pa11y scans using AWS Lambda", + "name": "federalist-landing-page-template", + "description": "Single-page Federalist template", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "federalist-template" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pa11y-lambda-cluster", + "repositoryURL": "https://github.com/18F/federalist-landing-page-template", "laborHours": 0, "organization": "18F" }, { - "name": "botkit", - "description": "Botkit is a toolkit for making bot applications", + "name": "wg-legacy-systems", + "description": "Repo for the legacy systems working group", "permissions": { "licenses": null, "usageType": "openSource", @@ -21209,31 +25087,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/botkit", + "repositoryURL": "https://github.com/18F/wg-legacy-systems", "laborHours": 0, "organization": "18F" }, { - "name": "project-planner", - "description": "Experimental site to provide IT staff visibility of projects, vendors, teams, and staff over time", + "name": "kube2consul", + "description": "Add DNS records for each Kubernetes Service", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "drupal" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/project-planner", + "repositoryURL": "https://github.com/18F/kube2consul", "laborHours": 0, "organization": "18F" }, { - "name": "dotgov-list-node", - "description": "(NOT MAINTAINED.)", + "name": "cg-migration-bot", + "description": "DEPRECATED: Bot for migrating users from cloud.gov to GovCloud", "permissions": { "licenses": null, "usageType": "openSource", @@ -21245,33 +25128,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dotgov-list-node", + "repositoryURL": "https://github.com/18F/cg-migration-bot", "laborHours": 0, "organization": "18F" }, { - "name": "wg-security", - "description": "wg-security", + "name": "generator-18F-static", + "description": "An experimental Yeoman static site generator for 18F.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "experimental" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-security", + "repositoryURL": "https://github.com/18F/generator-18F-static", "laborHours": 0, "organization": "18F" }, { - "name": "18f-reveal.js-theme", - "description": "A reveal.js theme with 18F branding.", + "name": "omniauth-cg", + "description": "OmniAuth strategy for cloud.gov (Forked from 18F/omniauth-myusa)", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -21281,31 +25169,32 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/18f-reveal.js-theme", + "repositoryURL": "https://github.com/18F/omniauth-cg", "laborHours": 0, "organization": "18F" }, { - "name": "concourse-pipeline-resource", - "description": "Concourse resource for interacting with concourse pipelines", + "name": "identity-playbook", + "description": "identity-playbook", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov", + "login-gov-deprecated" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/concourse-pipeline-resource", + "repositoryURL": "https://github.com/18F/identity-playbook", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-bots", - "description": "DEPRECIATED. These aren't the droids you're looking for. Moved to https://github.com/18F/cg-sandbox-bot", + "name": "shibboleth-boshrelease", + "description": "[WIP] IdP using shibboleth as a BOSH release", "permissions": { "licenses": null, "usageType": "openSource", @@ -21317,49 +25206,50 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-bots", + "repositoryURL": "https://github.com/18F/shibboleth-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "acqstackdb", - "description": "acqstackdb", + "name": "azure-sandbox", + "description": "Temporary home for deploying services into Azure: reliably, repeatably, compliantly", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "azure", + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acqstackdb", + "repositoryURL": "https://github.com/18F/azure-sandbox", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-docker-swarm", - "description": "[DEPRECATED] Deployment for Docker Swarm Broker", + "name": "apd-demo", + "description": "Demonstrate an alternative way of working with Advance Planning Documents", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-docker-swarm", + "repositoryURL": "https://github.com/18F/apd-demo", "laborHours": 0, "organization": "18F" }, { - "name": "request-circuit", - "description": "This is an npm module that wraps requests in a CircuitBreaker pattern and promises", + "name": "cg-diagrams", + "description": "cloud.gov-related diagrams", "permissions": { "licenses": null, "usageType": "openSource", @@ -21371,31 +25261,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/request-circuit", + "repositoryURL": "https://github.com/18F/cg-diagrams", "laborHours": 0, "organization": "18F" }, { - "name": "identity-sp-rails", - "description": "Test Service Provider for the Identity project", + "name": "fec-efiling", + "description": "A place to organize and manage tasks related to the FEC efiling project", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-sp-rails", + "repositoryURL": "https://github.com/18F/fec-efiling", "laborHours": 0, "organization": "18F" }, { - "name": "admin-ui-boshrelease", - "description": "admin-ui-boshrelease", + "name": "eng-hiring", + "description": "18F Engineering's guide to candidate selection, from resume screen to offer.", "permissions": { "licenses": null, "usageType": "openSource", @@ -21407,13 +25297,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/admin-ui-boshrelease", + "repositoryURL": "https://github.com/18F/eng-hiring", "laborHours": 0, "organization": "18F" }, { - "name": "html-proofer-docker", - "description": "HTML validation, made easy", + "name": "cg-sast-docker-image", + "description": "Build and deploy a docker container for running static application security testing tools", "permissions": { "licenses": null, "usageType": "openSource", @@ -21425,13 +25315,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/html-proofer-docker", + "repositoryURL": "https://github.com/18F/cg-sast-docker-image", "laborHours": 0, "organization": "18F" }, { - "name": "sslyze-docker", - "description": "SSL scanning made easy through SSLyze", + "name": "forest-service-prototype", + "description": "forest-service-prototype", "permissions": { "licenses": null, "usageType": "openSource", @@ -21443,31 +25333,41 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sslyze-docker", + "repositoryURL": "https://github.com/18F/forest-service-prototype", "laborHours": 0, "organization": "18F" }, { - "name": "phantomas-docker", - "description": "web performance metrics monitoring made easy using phantomas", + "name": "dol-whd-14c", + "description": "The 14(c) system will become a modern, digital-first service. Applicants will be provided an intuitive online experience, guiding them through the information needed to complete their application correctly.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "14c-application", + "14c-certificate", + "18f", + "agile-bpa", + "disability", + "dol", + "forms", + "government", + "labor", + "tts", + "whd" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/phantomas-docker", + "repositoryURL": "https://github.com/18F/dol-whd-14c", "laborHours": 0, "organization": "18F" }, { - "name": "site-inspector-docker", - "description": "[DEPRECATED] site technology and capability scanning made easy through site-inspector", + "name": "guides-router", + "description": "DEPRECATED: A simple utility that routes and proxies requests for 18F guides", "permissions": { "licenses": null, "usageType": "openSource", @@ -21479,31 +25379,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/site-inspector-docker", + "repositoryURL": "https://github.com/18F/guides-router", "laborHours": 0, "organization": "18F" }, { - "name": "cg-clamav-boshrelease", - "description": "cg-clamav-boshrelease", + "name": "census-similarity", + "description": "Small set of commands to find similarity between data sets", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-clamav-boshrelease", + "repositoryURL": "https://github.com/18F/census-similarity", "laborHours": 0, "organization": "18F" }, { - "name": "security-disclosures", - "description": "security-disclosures", + "name": "cg-deploy-aws-light-stemcell-builder", + "description": "DEPRECATED. We now get our GovCloud stemcells from bosh.io upstream.", "permissions": { "licenses": null, "usageType": "openSource", @@ -21515,13 +25415,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/security-disclosures", + "repositoryURL": "https://github.com/18F/cg-deploy-aws-light-stemcell-builder", "laborHours": 0, "organization": "18F" }, { - "name": "cg-nessus-manager-boshrelease", - "description": "BOSH release for Nessus Manager", + "name": "Modular-Contracting-And-Agile-Development", + "description": "Modular contracting and agile development resources.", "permissions": { "licenses": null, "usageType": "openSource", @@ -21533,31 +25433,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-nessus-manager-boshrelease", + "repositoryURL": "https://github.com/18F/Modular-Contracting-And-Agile-Development", "laborHours": 0, "organization": "18F" }, { - "name": "identity-proofer-gem", - "description": "delegate ID proofing to vendors", + "name": "devise-encryptable", + "description": "Devise encryptable behavior since v2.1", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-proofer-gem", + "repositoryURL": "https://github.com/18F/devise-encryptable", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-nessus-manager", - "description": "cg-deploy-nessus-manager", + "name": "handbook", + "description": "The home of policies and guidelines that make up TTS.", "permissions": { "licenses": null, "usageType": "openSource", @@ -21569,13 +25474,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-nessus-manager", + "repositoryURL": "https://github.com/18F/handbook", "laborHours": 0, "organization": "18F" }, { - "name": "cg-riemannc-boshrelease", - "description": "cg-riemannc-boshrelease", + "name": "coming-attractions", + "description": "[ work in progress ] A multi-route static single page application for :cloud:.gov to alert your users in a quick and easy way during an incident response.", "permissions": { "licenses": null, "usageType": "openSource", @@ -21587,13 +25492,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-riemannc-boshrelease", + "repositoryURL": "https://github.com/18F/coming-attractions", "laborHours": 0, "organization": "18F" }, { - "name": "firehose-to-syslog", - "description": "Send firehose events from Cloud Foundry to syslog.", + "name": "ffd-info-exchange", + "description": "Discovery sandbox for Federal Front Door information exchange. Contains two prototypes.", "permissions": { "licenses": null, "usageType": "openSource", @@ -21605,15 +25510,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/firehose-to-syslog", + "repositoryURL": "https://github.com/18F/ffd-info-exchange", "laborHours": 0, "organization": "18F" }, { - "name": "digitalaccelerator", - "description": "Digital Acquisition Pilot Guide", + "name": "politespace", + "description": "Politely add spaces to numeric form values to increase readability (credit card numbers, phone numbers, etc).", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -21623,36 +25533,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/digitalaccelerator", + "repositoryURL": "https://github.com/18F/politespace", "laborHours": 0, "organization": "18F" }, { - "name": "cg-newrelic-boshrelease", - "description": "[DEPRECATED] Pipeline for NewRelic BOSH release used in cloud.gov", + "name": "identity-deed", + "description": "Privacy risk assessment tool inspired by NIST", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-newrelic-boshrelease", + "repositoryURL": "https://github.com/18F/identity-deed", "laborHours": 0, "organization": "18F" }, { - "name": "fedramp-dashboard", - "description": "fedramp-dashboard", + "name": "ci", + "description": "Pa11y CI is a proposed CI-centric accessibility test runner", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" + "URL": "https://api.github.com/licenses/lgpl-3.0", + "name": "LGPL-3.0" } ], "usageType": "openSource", @@ -21664,31 +25574,32 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fedramp-dashboard", + "repositoryURL": "https://github.com/18F/ci", "laborHours": 0, "organization": "18F" }, { - "name": "eregs-platform", - "description": "Planning and configuration for eRegs as a Platform", + "name": "identity-usability-testing", + "description": "Static site for login.gov usability testing", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "login-gov", + "login-gov-deprecated" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/eregs-platform", + "repositoryURL": "https://github.com/18F/identity-usability-testing", "laborHours": 0, "organization": "18F" }, { - "name": "ED-API-Program", - "description": "An API program for the Department of Education", + "name": "continua11y-dashboard", + "description": "Riff on stvnrlly's continua11y, CI dashoard and tools", "permissions": { "licenses": null, "usageType": "openSource", @@ -21700,31 +25611,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ED-API-Program", - "laborHours": 0, - "organization": "18F" - }, - { - "name": "state-faq", - "description": "[Deprecated] A site with frequently asked questions from 18F's state child welfare partners", - "permissions": { - "licenses": null, - "usageType": "openSource", - "exemptionText": null - }, - "tags": [ - "unmaintained" - ], - "contact": { - "email": "18f@gsa.gov" - }, - "repositoryURL": "https://github.com/18F/state-faq", + "repositoryURL": "https://github.com/18F/continua11y-dashboard", "laborHours": 0, "organization": "18F" }, { - "name": "s3-encryptor", - "description": "Encrypt all objects in all buckets because... Encrypt all the things!", + "name": "cg-deploy-shibboleth", + "description": ":cloud:.gov Shibboleth :airplane: Concourse Deployment", "permissions": { "licenses": null, "usageType": "openSource", @@ -21736,13 +25629,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/s3-encryptor", + "repositoryURL": "https://github.com/18F/cg-deploy-shibboleth", "laborHours": 0, "organization": "18F" }, { - "name": "acquisitions", - "description": "acquisitions", + "name": "epa-notice-landing", + "description": "A static site for those interested in the EPA Notice pilot", "permissions": { "licenses": null, "usageType": "openSource", @@ -21754,18 +25647,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acquisitions", + "repositoryURL": "https://github.com/18F/epa-notice-landing", "laborHours": 0, "organization": "18F" }, { - "name": "cg-snort-boshrelease", - "description": "BOSH Release for Snort IDS", + "name": "jekyll-archives", + "description": ":books: Archive pages for your Jekyll tags and categories.", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" } ], "usageType": "openSource", @@ -21777,41 +25670,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-snort-boshrelease", + "repositoryURL": "https://github.com/18F/jekyll-archives", "laborHours": 0, "organization": "18F" }, { - "name": "bpa-DOL-WHD-14-c", - "description": "The 14(c) system will become a modern, digital-first service. Applicants will be provided an intuitive online experience, guiding them through the information needed to complete their application correctly.", + "name": "pycel", + "description": "A library for compiling excel spreadsheets to python code & visualizing them as a graph", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "14c-application", - "14c-certificate", - "18f", - "agile-bpa", - "disability", - "dol", - "forms", - "government", - "labor", - "tts", - "whd" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bpa-DOL-WHD-14-c", + "repositoryURL": "https://github.com/18F/pycel", "laborHours": 0, "organization": "18F" }, { - "name": "fec-transition", - "description": "Repository for planning and executing the transition of fec related projects from 18F back to the Federal Elections Commission", + "name": "informed-consent-form", + "description": "informed-consent-form", "permissions": { "licenses": null, "usageType": "openSource", @@ -21823,13 +25706,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-transition", + "repositoryURL": "https://github.com/18F/informed-consent-form", "laborHours": 0, "organization": "18F" }, { - "name": "acq-templates-from-trello", - "description": "Fill in templated markdown files from Trello", + "name": "cg-deploy-abacus", + "description": "[DEPRECATED]", "permissions": { "licenses": null, "usageType": "openSource", @@ -21841,13 +25724,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acq-templates-from-trello", + "repositoryURL": "https://github.com/18F/cg-deploy-abacus", "laborHours": 0, "organization": "18F" }, { - "name": "fec-shipper", - "description": "Code for loading legal data into openFEC api", + "name": "node-continua11y-acceptance", + "description": "Accessibility acceptance tests for node", "permissions": { "licenses": null, "usageType": "openSource", @@ -21859,13 +25742,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-shipper", + "repositoryURL": "https://github.com/18F/node-continua11y-acceptance", "laborHours": 0, "organization": "18F" }, { - "name": "reheader", - "description": "CSV reading with inconsistent headers", + "name": "influxdb-monitor", + "description": "influxdb-monitor", "permissions": { "licenses": null, "usageType": "openSource", @@ -21877,13 +25760,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/reheader", + "repositoryURL": "https://github.com/18F/influxdb-monitor", "laborHours": 0, "organization": "18F" }, { - "name": "cookiecutter-pypackage", - "description": "Cookiecutter template for a Python package.", + "name": "DOI-Digital-Services-PIA-UX", + "description": "Repository for the DOI Digital Services Privacy Impact Assessment UX project.", "permissions": { "licenses": null, "usageType": "openSource", @@ -21895,20 +25778,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cookiecutter-pypackage", + "repositoryURL": "https://github.com/18F/DOI-Digital-Services-PIA-UX", "laborHours": 0, "organization": "18F" }, { - "name": "trello_utils", - "description": "misc cli tools for trello functionality", + "name": "node-continua11y-ci-reporter", + "description": "Command line reporting utility for sending generated json reports to the continua11y dashboard", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -21918,31 +25796,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/trello_utils", + "repositoryURL": "https://github.com/18F/node-continua11y-ci-reporter", "laborHours": 0, "organization": "18F" }, { - "name": "identity-sp-python", - "description": "An example service provider (SP) written in python that integrates with 18F's identity-idp", + "name": "cg-logstash-output-s3-backport-release", + "description": "[DEPRECATED] A whole lot of boilerplate to apply a two-line patch", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-sp-python", + "repositoryURL": "https://github.com/18F/cg-logstash-output-s3-backport-release", "laborHours": 0, "organization": "18F" }, { - "name": "talent-reporting-product", - "description": "This repo is for the development of a talent oriented reporting solution.", + "name": "Shibboleth-IdP3-TOTP-Auth", + "description": "Google authenticator authentication module for Shibboleth IdP v3.", "permissions": { "licenses": null, "usageType": "openSource", @@ -21954,15 +25832,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/talent-reporting-product", + "repositoryURL": "https://github.com/18F/Shibboleth-IdP3-TOTP-Auth", "laborHours": 0, "organization": "18F" }, { - "name": "digital-acquisition-playbook", - "description": "Guidelines for digital acquistions", + "name": "cron-boshrelease", + "description": "DO NOT USE -- Changes in this repo have been merged upstream, use the upstream release via bosh.io", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -21972,31 +25855,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/digital-acquisition-playbook", + "repositoryURL": "https://github.com/18F/cron-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "tock-blocks", - "description": "A simple command line tool to better understand your major projects in Tock", + "name": "cf-buildpack-db-export", + "description": "[DEPRECATED] Buildpack with database clients for postgres and mysql", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "deprecated" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tock-blocks", + "repositoryURL": "https://github.com/18F/cf-buildpack-db-export", "laborHours": 0, "organization": "18F" }, { - "name": "clone_army", - "description": "Keep local clones of all an org or user's repositories", + "name": "cg-migrate-db", + "description": "Export database from cloud.gov app", "permissions": { "licenses": null, "usageType": "openSource", @@ -22008,31 +25896,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/clone_army", + "repositoryURL": "https://github.com/18F/cg-migrate-db", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-diego", - "description": "[DEPRECATED] BOSH manifests and Concourse pipeline for 18F's Diego deployment", + "name": "identity-style-guide", + "description": "The global style of login.gov", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-diego", + "repositoryURL": "https://github.com/18F/identity-style-guide", "laborHours": 0, "organization": "18F" }, { - "name": "dns", - "description": "DNS configuration for domains managed by GSA TTS", + "name": "vulnerability-disclosure-policy", + "description": "The vulnerability disclosure policy for 18F and GSA's Technology Transformation Service.", "permissions": { "licenses": null, "usageType": "openSource", @@ -22044,13 +25937,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dns", + "repositoryURL": "https://github.com/18F/vulnerability-disclosure-policy", "laborHours": 0, "organization": "18F" }, { - "name": "react-redux-event-demo", - "description": "A basic technology demo of some javascript frameworks in a purely client application.", + "name": "tock-management-reports", + "description": "A couple of scripts I use to monitor Tock data.", "permissions": { "licenses": null, "usageType": "openSource", @@ -22062,37 +25955,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/react-redux-event-demo", + "repositoryURL": "https://github.com/18F/tock-management-reports", "laborHours": 0, "organization": "18F" }, { - "name": "bpa-identity-management", - "description": "Procurement Documents for Task Order on the Agile BPA", + "name": "tock-task-timer-script", + "description": "A browser userscript that add task timer capability to Tock", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "agile-bpa", - "government" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bpa-identity-management", + "repositoryURL": "https://github.com/18F/tock-task-timer-script", "laborHours": 0, "organization": "18F" }, { - "name": "paper-rhino", - "description": "Prototype for new NTIS Document Service Project", + "name": "acquisitions.18f.gov", + "description": "acquisitions.18f.gov", "permissions": { "licenses": null, "usageType": "openSource", @@ -22104,13 +25991,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/paper-rhino", + "repositoryURL": "https://github.com/18F/acquisitions.18f.gov", "laborHours": 0, "organization": "18F" }, { - "name": "cg-fake-uaa", - "description": "A fake User Account and Authentication (UAA) server for cloud.gov.", + "name": "windows_stig_cookbook", + "description": "Converge a Windows server to DOD STIG", "permissions": { "licenses": null, "usageType": "openSource", @@ -22122,13 +26009,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-fake-uaa", + "repositoryURL": "https://github.com/18F/windows_stig_cookbook", "laborHours": 0, "organization": "18F" }, { - "name": "cf-app-events-logger", - "description": "Logs data from the CF /v2/events API", + "name": "pdf_parser", + "description": "pdf_parser", "permissions": { "licenses": null, "usageType": "openSource", @@ -22140,13 +26027,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-app-events-logger", + "repositoryURL": "https://github.com/18F/pdf_parser", "laborHours": 0, "organization": "18F" }, { - "name": "django-admin508", - "description": "Improved accessibility for Django's admin interface.", + "name": "cg-deploy-fugacious", + "description": "cg-deploy-fugacious", "permissions": { "licenses": null, "usageType": "openSource", @@ -22158,79 +26045,76 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-admin508", + "repositoryURL": "https://github.com/18F/cg-deploy-fugacious", "laborHours": 0, "organization": "18F" }, { - "name": "gov-repo-langs", - "description": "A tool for fetching dev language metadata about US government repos", + "name": "stickyfill", + "description": "`position: sticky` polyfill", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "javascript", + "polyfill", + "sticky" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/gov-repo-langs", + "repositoryURL": "https://github.com/18F/stickyfill", "laborHours": 0, "organization": "18F" }, { - "name": "hhs-acf-uc-api", - "description": "API for the Dept. of Health and Human Services: Administration for Children and Families' Unaccompanied Children database", + "name": "research", + "description": "research", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hhs-acf-uc-api", + "repositoryURL": "https://github.com/18F/research", "laborHours": 0, "organization": "18F" }, { - "name": "hhs-acf-uc-dashboard", - "description": "Dashboard for the Dept. of Health and Human Services: Administration for Children and Families' Unaccompanied Children database", + "name": "node-continua11y-reports", + "description": "Node module for converting pa11y (and potentially other format) reports to continua11y reports!", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hhs-acf-uc-dashboard", + "repositoryURL": "https://github.com/18F/node-continua11y-reports", "laborHours": 0, "organization": "18F" }, { - "name": "cookiecutter-django", - "description": "Cookiecutter Django is a framework for jumpstarting production-ready Django projects quickly.", + "name": "node-continua11y-sitemapper", + "description": "Accessibility sitemap scraper for node ", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/bsd-3-clause", - "name": "BSD-3-Clause" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -22240,15 +26124,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cookiecutter-django", + "repositoryURL": "https://github.com/18F/node-continua11y-sitemapper", "laborHours": 0, "organization": "18F" }, { - "name": "allregs", - "description": "[Experimental] All Regulations in the Code of Federal Regulations", + "name": "s3-resource", + "description": "Concourse resource for interacting with AWS S3", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -22258,31 +26147,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/allregs", + "repositoryURL": "https://github.com/18F/s3-resource", "laborHours": 0, "organization": "18F" }, { - "name": "18f-education-discovery", - "description": "Research documentation and findings for the discovery research done for 18F Education in the summer of 2016. ", + "name": "18franklin", + "description": "A strong, neutral typeface for text or display", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/ofl-1.1", + "name": "OFL-1.1" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "typeface" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/18f-education-discovery", + "repositoryURL": "https://github.com/18F/18franklin", "laborHours": 0, "organization": "18F" }, { - "name": "cf-example-suitecrm", - "description": "[DEPRECATED / not maintained] Example of deploying SuiteCRM on Cloud Foundry", + "name": "zap-analyzer", + "description": "Helps you sort through the results of an OWASP ZAP scan.", "permissions": { "licenses": null, "usageType": "openSource", @@ -22294,13 +26188,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-example-suitecrm", + "repositoryURL": "https://github.com/18F/zap-analyzer", "laborHours": 0, "organization": "18F" }, { - "name": "rdbms_anonymizer", - "description": "Replace PII in a database with fictional data", + "name": "the-reckoning", + "description": "Application for integrating several accounting related data sources", "permissions": { "licenses": null, "usageType": "openSource", @@ -22312,111 +26206,103 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/rdbms_anonymizer", + "repositoryURL": "https://github.com/18F/the-reckoning", "laborHours": 0, "organization": "18F" }, { - "name": "identity-sp-java", - "description": "An example service provider (SP) written in Java that integrates with 18F's identity-idp", + "name": "accessibility-practice-site", + "description": "A jekyll based website used for practicing accessibility testing", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-sp-java", + "repositoryURL": "https://github.com/18F/accessibility-practice-site", "laborHours": 0, "organization": "18F" }, { - "name": "web-design-standards-docs", - "description": "U.S. Web Design Standards website and documentation", + "name": "far-cry", + "description": "Small Ruby library for sending parsed Federal Acquisitions Regulations data to an API", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "design-system", - "documentation", - "government", - "gulp", - "jekyll", - "uswds" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/web-design-standards-docs", + "repositoryURL": "https://github.com/18F/far-cry", "laborHours": 0, "organization": "18F" }, { - "name": "quick-stats", - "description": "A few scripts used for pulling stats out of Github and Tock", + "name": "identity-monitor", + "description": "smoke test login.gov", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/quick-stats", + "repositoryURL": "https://github.com/18F/identity-monitor", "laborHours": 0, "organization": "18F" }, { - "name": "marigold", - "description": "An experimental set of reusable components and patterns for making websites and applications at 18F/TTS.", + "name": "ie11_stig_dsc", + "description": "Demo DSC, Desired State Configuration, for Internet Explorer STIG ", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "experimental" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/marigold", + "repositoryURL": "https://github.com/18F/ie11_stig_dsc", "laborHours": 0, "organization": "18F" }, { - "name": "bpa-opm-eqip", - "description": "bpa-opm-eqip", + "name": "micropurchase-auctions", + "description": "A repo where anyone can add suggested micro-purchase auctions", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "agile-bpa", - "eqip", - "government", - "opm" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bpa-opm-eqip", + "repositoryURL": "https://github.com/18F/micropurchase-auctions", "laborHours": 0, "organization": "18F" }, { - "name": "markov_bot", - "description": "Initial proof-of-concept markov chain for statistically exploring documentation ", + "name": "e-QIP-prototype", + "description": "A prototype for the e-QIP form. For more information: https://github.com/18F/bpa-opm-eqip", "permissions": { "licenses": null, "usageType": "openSource", @@ -22428,31 +26314,32 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/markov_bot", + "repositoryURL": "https://github.com/18F/e-QIP-prototype", "laborHours": 0, "organization": "18F" }, { - "name": "dynamoed", - "description": "Light dynamodb wrapper to take the pain out of terrible AWS param formats", + "name": "generator-uswds", + "description": "A Yeoman generator for the U.S. Web Design Standards", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "uswds", + "yeoman-generator" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dynamoed", + "repositoryURL": "https://github.com/18F/generator-uswds", "laborHours": 0, "organization": "18F" }, { - "name": "riemann-firehose-nozzle", - "description": "riemann-firehose-nozzle", + "name": "cf-redirect", + "description": "Small static app to redirect one domain to another", "permissions": { "licenses": null, "usageType": "openSource", @@ -22464,32 +26351,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/riemann-firehose-nozzle", + "repositoryURL": "https://github.com/18F/cf-redirect", "laborHours": 0, "organization": "18F" }, { - "name": "uswds-rails-gem", - "description": "Integrate the US Web Design Standards with your Rails application", + "name": "calc-analysis", + "description": "Data science experiments and analysis regarding the CALC project.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained", - "uswds" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/uswds-rails-gem", + "repositoryURL": "https://github.com/18F/calc-analysis", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-riemann-firehose-nozzle", - "description": "cg-deploy-riemann-firehose-nozzle", + "name": "skills_share", + "description": "skills_share", "permissions": { "licenses": null, "usageType": "openSource", @@ -22501,13 +26387,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-riemann-firehose-nozzle", + "repositoryURL": "https://github.com/18F/skills_share", "laborHours": 0, "organization": "18F" }, { - "name": "kubernetes-release", - "description": "BOSH release for Kubernetes", + "name": "ops-improvements", + "description": "ops-improvements", "permissions": { "licenses": null, "usageType": "openSource", @@ -22519,52 +26405,60 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/kubernetes-release", + "repositoryURL": "https://github.com/18F/ops-improvements", "laborHours": 0, "organization": "18F" }, { - "name": "bosh-log-forwarder-boshrelease", - "description": "DEPRECATED", + "name": "Paid-Leave-Prototype", + "description": "A proof of concept state paid family medical leave system", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "application", + "dol", + "form", + "government", + "json-schema", + "labor", + "paid-leave" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bosh-log-forwarder-boshrelease", + "repositoryURL": "https://github.com/18F/Paid-Leave-Prototype", "laborHours": 0, "organization": "18F" }, { - "name": "felt-sass", - "description": "A Sass plugin for Felt", + "name": "notifications", + "description": "The notifications service component of CloudFoundry", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "cssnext", - "felt", - "postcss", - "sass" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/felt-sass", + "repositoryURL": "https://github.com/18F/notifications", "laborHours": 0, "organization": "18F" }, { - "name": "felt-recipe-18F", - "description": "The 18F Felt recipe", + "name": "cg-deploy-notifications", + "description": "cg-deploy-notifications", "permissions": { "licenses": null, "usageType": "openSource", @@ -22576,49 +26470,50 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/felt-recipe-18F", + "repositoryURL": "https://github.com/18F/cg-deploy-notifications", "laborHours": 0, "organization": "18F" }, { - "name": "DCOI-recommendations", - "description": "Recommendations for Data Center Optimization Initiative - OMB M-16-19", + "name": "identity-pii-management", + "description": "Deprecated static site for login.gov security", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov", + "login-gov-deprecated" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/DCOI-recommendations", + "repositoryURL": "https://github.com/18F/identity-pii-management", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-kubernetes", - "description": "cg-deploy-kubernetes", + "name": "postgres", + "description": "Mirror of the official PostgreSQL GIT repository. Note that this is just a *mirror* - we don't work with pull requests on github. To contribute, please see http://wiki.postgresql.org/wiki/Submitting_a_Patch", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-kubernetes", + "repositoryURL": "https://github.com/18F/postgres", "laborHours": 0, "organization": "18F" }, { - "name": "share", - "description": "a peer to peer browser based file transfer tool", + "name": "uswds-jekyll-legacy", + "description": "This is an unmaintained fork of the U.S. Web Design Standards Jekyll theme created by the U.S. Digital Service", "permissions": { "licenses": null, "usageType": "openSource", @@ -22630,13 +26525,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/share", + "repositoryURL": "https://github.com/18F/uswds-jekyll-legacy", "laborHours": 0, "organization": "18F" }, { - "name": "kubernetes-broker", - "description": "Broker for kubernetes based services", + "name": "git-seekret", + "description": "Git module to prevent from committing sensitive information into the repository.", "permissions": { "licenses": [ { @@ -22653,31 +26548,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/kubernetes-broker", + "repositoryURL": "https://github.com/18F/git-seekret", "laborHours": 0, "organization": "18F" }, { - "name": "identity-intro", - "description": "identity-intro", + "name": "cloud-native-aws-terraform-workshop", + "description": "A 1-day training class on how to deploy a cloud native app on AWS with Terraform and shell scripts", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-intro", + "repositoryURL": "https://github.com/18F/cloud-native-aws-terraform-workshop", "laborHours": 0, "organization": "18F" }, { - "name": "saml_idp", - "description": "saml_idp", + "name": "far-clauses-tool", + "description": "A tool to help identify required FAR clauses for contract types", "permissions": { "licenses": null, "usageType": "openSource", @@ -22689,13 +26584,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/saml_idp", + "repositoryURL": "https://github.com/18F/far-clauses-tool", "laborHours": 0, "organization": "18F" }, { - "name": "workshops-lab", - "description": "The goal of this repository is to share workshop facilitation methods, tools and best practices across the 18F team!", + "name": "federal-apis", + "description": "The APIs of the US federal government. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -22707,36 +26602,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/workshops-lab", + "repositoryURL": "https://github.com/18F/federal-apis", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-landing-page-template", - "description": "Single-page Federalist template", + "name": "test-docsite", + "description": "Testing out a documentation format based on Poole/Hyde", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "federalist-template" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-landing-page-template", + "repositoryURL": "https://github.com/18F/test-docsite", "laborHours": 0, "organization": "18F" }, { - "name": "wg-legacy-systems", - "description": "Repo for the legacy systems working group", + "name": "visual-design", + "description": "Resources, assets, and discussion focused on visual design issues.", "permissions": { "licenses": null, "usageType": "openSource", @@ -22748,13 +26638,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wg-legacy-systems", + "repositoryURL": "https://github.com/18F/visual-design", "laborHours": 0, "organization": "18F" }, { - "name": "kube2consul", - "description": "Add DNS records for each Kubernetes Service", + "name": "cf-route-lookup", + "description": "A Cloud Foundry CLI plugin to find the application(s) associated with a given hostname", "permissions": { "licenses": null, "usageType": "openSource", @@ -22766,49 +26656,50 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/kube2consul", + "repositoryURL": "https://github.com/18F/cf-route-lookup", "laborHours": 0, "organization": "18F" }, { - "name": "cg-migration-bot", - "description": "DEPRECATED: Bot for migrating users from cloud.gov to GovCloud", + "name": "identity-analysis-sandbox", + "description": "Analytics prototype for login.gov", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov", + "login-gov-deprecated" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-migration-bot", + "repositoryURL": "https://github.com/18F/identity-analysis-sandbox", "laborHours": 0, "organization": "18F" }, { - "name": "generator-18F-static", - "description": "An experimental Yeoman static site generator for 18F.", + "name": "crime-data-style", + "description": "A visual style guide and component library for the Crime Data Explorer", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "experimental" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/generator-18F-static", + "repositoryURL": "https://github.com/18F/crime-data-style", "laborHours": 0, "organization": "18F" }, { - "name": "fec-epics", - "description": "Tracks high level epics for the FEC project", + "name": "pa11y-crawl-docker", + "description": "A Docker image for pa11y-crawl", "permissions": { "licenses": null, "usageType": "openSource", @@ -22820,18 +26711,18 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-epics", + "repositoryURL": "https://github.com/18F/pa11y-crawl-docker", "laborHours": 0, "organization": "18F" }, { - "name": "omniauth-cg", - "description": "OmniAuth strategy for cloud.gov (Forked from 18F/omniauth-myusa)", + "name": "seekret", + "description": "Go library and command line to seek for secrets on various sources.", "permissions": { "licenses": [ { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" } ], "usageType": "openSource", @@ -22843,32 +26734,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/omniauth-cg", + "repositoryURL": "https://github.com/18F/seekret", "laborHours": 0, "organization": "18F" }, { - "name": "identity-playbook", - "description": "identity-playbook", + "name": "tts-engage", + "description": "An open working group devoted to making TTS a great place to work. ", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov", - "login-gov-deprecated" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-playbook", + "repositoryURL": "https://github.com/18F/tts-engage", "laborHours": 0, "organization": "18F" }, { - "name": "shibboleth-boshrelease", - "description": "[WIP] IdP using shibboleth as a BOSH release", + "name": "acqstack-journeymap", + "description": "acqstack-journeymap", "permissions": { "licenses": null, "usageType": "openSource", @@ -22880,32 +26770,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/shibboleth-boshrelease", + "repositoryURL": "https://github.com/18F/acqstack-journeymap", "laborHours": 0, "organization": "18F" }, { - "name": "azure-sandbox", - "description": "Temporary home for deploying services into Azure: reliably, repeatably, compliantly", + "name": "nsf-sbir-sprint", + "description": "National Science Foundation", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "azure", - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/azure-sandbox", + "repositoryURL": "https://github.com/18F/nsf-sbir-sprint", "laborHours": 0, "organization": "18F" }, { - "name": "apd-demo", - "description": "Demonstrate an alternative way of working with Advance Planning Documents", + "name": "cg-deploy-s3-broker", + "description": "cg-deploy-s3-broker", "permissions": { "licenses": null, "usageType": "openSource", @@ -22917,68 +26806,72 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/apd-demo", + "repositoryURL": "https://github.com/18F/cg-deploy-s3-broker", "laborHours": 0, "organization": "18F" }, { - "name": "crime-data-api", - "description": "RESTful API service providing Uniform Crime Reporting (UCR) data for the United States", + "name": "fs-permit-api-schemas", + "description": "Draft schemas of permit types to be used in the Forest Service Online Permit Project", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "crime-data", - "government-data" + "forest-service", + "schema" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/crime-data-api", + "repositoryURL": "https://github.com/18F/fs-permit-api-schemas", "laborHours": 0, "organization": "18F" }, { - "name": "cg-diagrams", - "description": "cloud.gov-related diagrams", + "name": "federalist-redirects", + "description": "RETIRED: Redirects from custom domains to Federalist", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "unmaintained" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-diagrams", + "repositoryURL": "https://github.com/18F/federalist-redirects", "laborHours": 0, "organization": "18F" }, { - "name": "fec-efiling", - "description": "A place to organize and manage tasks related to the FEC efiling project", + "name": "bpa-fs-epermit-api", + "description": "This task order is for an Application Protocol Interface (API) layer future applications could use to read and write to SUDS, an Oracle system.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "18f", + "agile-bpa", + "api", + "forest-service", + "government" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-efiling", + "repositoryURL": "https://github.com/18F/bpa-fs-epermit-api", "laborHours": 0, "organization": "18F" }, { - "name": "eng-hiring", - "description": "18F Engineering's guide to candidate selection, from resume screen to offer.", + "name": "micropurchase-skills", + "description": "Ruby script for understanding the skills of Micro-purchase bidders", "permissions": { "licenses": null, "usageType": "openSource", @@ -22990,15 +26883,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/eng-hiring", + "repositoryURL": "https://github.com/18F/micropurchase-skills", "laborHours": 0, "organization": "18F" }, { - "name": "cg-sast-docker-image", - "description": "Build and deploy a docker container for running static application security testing tools", + "name": "united", + "description": "An experimental atomic css prototype framework, developed for prototyping patterns for cloud.gov.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -23008,15 +26906,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-sast-docker-image", + "repositoryURL": "https://github.com/18F/united", "laborHours": 0, "organization": "18F" }, { - "name": "forest-service-prototype", - "description": "forest-service-prototype", + "name": "wait-for-it", + "description": "Pure bash script to test and wait on the availability of a TCP host and port", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -23026,41 +26929,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/forest-service-prototype", + "repositoryURL": "https://github.com/18F/wait-for-it", "laborHours": 0, "organization": "18F" }, { - "name": "dol-whd-14c", - "description": "The 14(c) system will become a modern, digital-first service. Applicants will be provided an intuitive online experience, guiding them through the information needed to complete their application correctly.", + "name": "cg-deploy-rds-broker", + "description": "cg-deploy-rds-broker", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "14c-application", - "14c-certificate", - "18f", - "agile-bpa", - "disability", - "dol", - "forms", - "government", - "labor", - "tts", - "whd" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dol-whd-14c", + "repositoryURL": "https://github.com/18F/cg-deploy-rds-broker", "laborHours": 0, "organization": "18F" }, { - "name": "guides-router", - "description": "DEPRECATED: A simple utility that routes and proxies requests for 18F guides", + "name": "innovation-toolkit-prototype", + "description": "http://federalist.18f.gov.s3-website-us-east-1.amazonaws.com/site/18f/innovation-toolkit-prototype/", "permissions": { "licenses": null, "usageType": "openSource", @@ -23072,31 +26965,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/guides-router", + "repositoryURL": "https://github.com/18F/innovation-toolkit-prototype", "laborHours": 0, "organization": "18F" }, { - "name": "census-similarity", - "description": "Small set of commands to find similarity between data sets", + "name": "cf-service-connect", + "description": "Cloud Foundry CLI Service Connection Plugin", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/census-similarity", + "repositoryURL": "https://github.com/18F/cf-service-connect", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-aws-light-stemcell-builder", - "description": "DEPRECATED. We now get our GovCloud stemcells from bosh.io upstream.", + "name": "nsf-sbir-02", + "description": "nsf-sbir-02", "permissions": { "licenses": null, "usageType": "openSource", @@ -23108,13 +27001,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-aws-light-stemcell-builder", + "repositoryURL": "https://github.com/18F/nsf-sbir-02", "laborHours": 0, "organization": "18F" }, { - "name": "Modular-Contracting-And-Agile-Development", - "description": "Modular contracting and agile development resources.", + "name": "concourse-broker", + "description": "A Cloud Foundry service broker for Concourse CI", "permissions": { "licenses": null, "usageType": "openSource", @@ -23126,13 +27019,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/Modular-Contracting-And-Agile-Development", + "repositoryURL": "https://github.com/18F/concourse-broker", "laborHours": 0, "organization": "18F" }, { - "name": "devise-encryptable", - "description": "Devise encryptable behavior since v2.1", + "name": "omb-eregs", + "description": "A tool to find, read, and maintain White House Office of Management and Budget (OMB) policy requirements", "permissions": { "licenses": null, "usageType": "openSource", @@ -23144,31 +27037,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/devise-encryptable", + "repositoryURL": "https://github.com/18F/omb-eregs", "laborHours": 0, "organization": "18F" }, { - "name": "handbook", - "description": "The home of policies and guidelines that make up TTS.", + "name": "identity-oidc-ios", + "description": "Example OpenID Connect client for login.gov for iOS", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/handbook", + "repositoryURL": "https://github.com/18F/identity-oidc-ios", "laborHours": 0, "organization": "18F" }, { - "name": "coming-attractions", - "description": "[ work in progress ] A multi-route static single page application for :cloud:.gov to alert your users in a quick and easy way during an incident response.", + "name": "Level-Up", + "description": "Level-Up", "permissions": { "licenses": null, "usageType": "openSource", @@ -23180,13 +27073,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/coming-attractions", + "repositoryURL": "https://github.com/18F/Level-Up", "laborHours": 0, "organization": "18F" }, { - "name": "ffd-info-exchange", - "description": "Discovery sandbox for Federal Front Door information exchange. Contains two prototypes.", + "name": "nsf-sbir-03", + "description": "nsf-sbir-03", "permissions": { "licenses": null, "usageType": "openSource", @@ -23198,13 +27091,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ffd-info-exchange", + "repositoryURL": "https://github.com/18F/nsf-sbir-03", "laborHours": 0, "organization": "18F" }, { - "name": "politespace", - "description": "Politely add spaces to numeric form values to increase readability (credit card numbers, phone numbers, etc).", + "name": "SkillShare", + "description": "SkillShare", "permissions": { "licenses": null, "usageType": "openSource", @@ -23216,31 +27109,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/politespace", + "repositoryURL": "https://github.com/18F/SkillShare", "laborHours": 0, "organization": "18F" }, { - "name": "identity-deed", - "description": "Privacy risk assessment tool inspired by NIST", + "name": "slack-github-issues", + "description": "Library for using Slack reaction_added events to file GitHub issues", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/isc", + "name": "ISC" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-deed", + "repositoryURL": "https://github.com/18F/slack-github-issues", "laborHours": 0, "organization": "18F" }, { - "name": "fec-testing", - "description": "FEC repository that tracks ideas through concept, design, usability testing, documentation, and feeds project improvements over time.", + "name": "deploy-ttslicenses", + "description": "Build scripts and templates for ttslicenses", "permissions": { "licenses": null, "usageType": "openSource", @@ -23252,13 +27150,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-testing", + "repositoryURL": "https://github.com/18F/deploy-ttslicenses", "laborHours": 0, "organization": "18F" }, { - "name": "ci", - "description": "Pa11y CI is a proposed CI-centric accessibility test runner", + "name": "cf-limit-check", + "description": "cf-limit-check", "permissions": { "licenses": null, "usageType": "openSource", @@ -23270,32 +27168,37 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ci", + "repositoryURL": "https://github.com/18F/cf-limit-check", "laborHours": 0, "organization": "18F" }, { - "name": "identity-usability-testing", - "description": "Static site for login.gov usability testing [DEPRECATED]", + "name": "tts-buy-bug-bounty", + "description": "Solicitation and acquisition documents created for the TTS Bug Bounty program that can be reused by other government agencies and organizations.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov", - "login-gov-deprecated" + "bounty", + "bug", + "government", + "gsa", + "open-government", + "tts", + "tts-bug-bounty" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-usability-testing", + "repositoryURL": "https://github.com/18F/tts-buy-bug-bounty", "laborHours": 0, "organization": "18F" }, { - "name": "continua11y-dashboard", - "description": "Riff on stvnrlly's continua11y, CI dashoard and tools", + "name": "atul-docker-presentation", + "description": "A presentation about Docker and an example Dockerized project.", "permissions": { "licenses": null, "usageType": "openSource", @@ -23307,13 +27210,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/continua11y-dashboard", + "repositoryURL": "https://github.com/18F/atul-docker-presentation", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-shibboleth", - "description": ":cloud:.gov Shibboleth :airplane: Concourse Deployment", + "name": "tts-homepage", + "description": "tts-homepage", "permissions": { "licenses": null, "usageType": "openSource", @@ -23325,38 +27228,34 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-shibboleth", + "repositoryURL": "https://github.com/18F/tts-homepage", "laborHours": 0, "organization": "18F" }, { - "name": "epa-notice-landing", - "description": "A static site for those interested in the EPA Notice pilot", + "name": "federalist-proxy", + "description": "Proxies traffic from the Federalist S3 bucket", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "federalist", + "federalist-core" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/epa-notice-landing", + "repositoryURL": "https://github.com/18F/federalist-proxy", "laborHours": 0, "organization": "18F" }, { - "name": "jekyll-archives", - "description": ":books: Archive pages for your Jekyll tags and categories.", + "name": "cg-django-uaa", + "description": "A cloud.gov UAA authentication backend for Django", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -23366,31 +27265,34 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/jekyll-archives", + "repositoryURL": "https://github.com/18F/cg-django-uaa", "laborHours": 0, "organization": "18F" }, { - "name": "pycel", - "description": "A library for compiling excel spreadsheets to python code & visualizing them as a graph", + "name": "bpa-fs-epermit-intake", + "description": "The scope of this task order is for a public front-end intake module for use by non-commercial groups, temporary outfitter, and guide permits.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "agile-bpa", + "forest-service", + "front-end-development", + "government" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pycel", + "repositoryURL": "https://github.com/18F/bpa-fs-epermit-intake", "laborHours": 0, "organization": "18F" }, { - "name": "informed-consent-form", - "description": "informed-consent-form", + "name": "cg-deploy-uaa-guard-broker", + "description": "UAA proxy service as a broker", "permissions": { "licenses": null, "usageType": "openSource", @@ -23402,31 +27304,33 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/informed-consent-form", + "repositoryURL": "https://github.com/18F/cg-deploy-uaa-guard-broker", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-abacus", - "description": "[DEPRECATED]", + "name": "accessibility-playbook", + "description": "Practices for embedding accessibility and inclusive design into 18F teams", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "a11y", + "accessibility", + "government" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-abacus", + "repositoryURL": "https://github.com/18F/accessibility-playbook", "laborHours": 0, "organization": "18F" }, { - "name": "node-continua11y-acceptance", - "description": "Accessibility acceptance tests for node", + "name": "unified-analytics-dashboard", + "description": "[WIP] Ideas for a proposed unified analytics hub ", "permissions": { "licenses": null, "usageType": "openSource", @@ -23438,13 +27342,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/node-continua11y-acceptance", + "repositoryURL": "https://github.com/18F/unified-analytics-dashboard", "laborHours": 0, "organization": "18F" }, { - "name": "influxdb-monitor", - "description": "influxdb-monitor", + "name": "cf-list-services-in-org", + "description": "List all cf services in the current org", "permissions": { "licenses": null, "usageType": "openSource", @@ -23456,13 +27360,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/influxdb-monitor", + "repositoryURL": "https://github.com/18F/cf-list-services-in-org", "laborHours": 0, "organization": "18F" }, { - "name": "DOI-Digital-Services-PIA-UX", - "description": "Repository for the DOI Digital Services Privacy Impact Assessment UX project.", + "name": "third-party-services", + "description": "Researching the use of 3rd party services by .gov websites", "permissions": { "licenses": null, "usageType": "openSource", @@ -23474,13 +27378,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/DOI-Digital-Services-PIA-UX", + "repositoryURL": "https://github.com/18F/third-party-services", "laborHours": 0, "organization": "18F" }, { - "name": "node-continua11y-ci-reporter", - "description": "Command line reporting utility for sending generated json reports to the continua11y dashboard", + "name": "cg-sandbox", + "description": "cg-sandbox", "permissions": { "licenses": null, "usageType": "openSource", @@ -23492,56 +27396,59 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/node-continua11y-ci-reporter", + "repositoryURL": "https://github.com/18F/cg-sandbox", "laborHours": 0, "organization": "18F" }, { - "name": "cg-logstash-output-s3-backport-release", - "description": "[DEPRECATED] A whole lot of boilerplate to apply a two-line patch", + "name": "bpa-disaster-data-portal-pilot", + "description": "The scope of this task is to build a working pilot of a portal that collects and displays Community Development Block Grant – Disaster Recovery (CDBG-DR) data.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "18f", + "agile-bpa", + "diaster-data", + "disaster-recovery", + "fema", + "government", + "hud", + "solicitation", + "tts" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-logstash-output-s3-backport-release", + "repositoryURL": "https://github.com/18F/bpa-disaster-data-portal-pilot", "laborHours": 0, "organization": "18F" }, { - "name": "Shibboleth-IdP3-TOTP-Auth", - "description": "Google authenticator authentication module for Shibboleth IdP v3.", + "name": "identity-oidc-sinatra", + "description": "Example OpenID Connect relying party as a Sinatra app", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/Shibboleth-IdP3-TOTP-Auth", + "repositoryURL": "https://github.com/18F/identity-oidc-sinatra", "laborHours": 0, "organization": "18F" }, { - "name": "cron-boshrelease", - "description": "DO NOT USE -- Changes in this repo have been merged upstream, use the upstream release via bosh.io", + "name": "call-me-maybe", + "description": "A simple way to embed contact forms for recruiting", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -23551,31 +27458,33 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cron-boshrelease", + "repositoryURL": "https://github.com/18F/call-me-maybe", "laborHours": 0, "organization": "18F" }, { - "name": "cf-buildpack-db-export", - "description": "[DEPRECATED] Buildpack with database clients for postgres and mysql", + "name": "bpa-DOS-TalentMAP", + "description": "Procurement documents for the Department of State TalentMAP system, which will replace the existing Foreign Service Bidding application to match bidders to available posts and positions.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "deprecated" + "agile-bpa", + "foreign-service-bidding", + "state-department" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-buildpack-db-export", + "repositoryURL": "https://github.com/18F/bpa-DOS-TalentMAP", "laborHours": 0, "organization": "18F" }, { - "name": "cg-migrate-db", - "description": "[DEPRECATED] Export database from cloud.gov app", + "name": "fs-middlelayer-api", + "description": "fs-middlelayer-api", "permissions": { "licenses": null, "usageType": "openSource", @@ -23587,36 +27496,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-migrate-db", + "repositoryURL": "https://github.com/18F/fs-middlelayer-api", "laborHours": 0, "organization": "18F" }, { - "name": "identity-style-guide", - "description": "The global style of login.gov", + "name": "omb-eregs-prototypes", + "description": "Prototypes for omb-eregs. This repository is deprecated.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-style-guide", + "repositoryURL": "https://github.com/18F/omb-eregs-prototypes", "laborHours": 0, "organization": "18F" }, { - "name": "vulnerability-disclosure-policy", - "description": "The vulnerability disclosure policy for 18F and GSA's Technology Transformation Service.", + "name": "clinical-trials", + "description": "clinical-trials", "permissions": { "licenses": null, "usageType": "openSource", @@ -23628,87 +27532,104 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/vulnerability-disclosure-policy", + "repositoryURL": "https://github.com/18F/clinical-trials", "laborHours": 0, "organization": "18F" }, { - "name": "fec-pattern-library", - "description": "Pattern Library for the new FEC.gov", + "name": "jekyll-oembed", + "description": "OEmbed Liquid Tag gem for Jekyll", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "jekyll", + "jekyll-plugin", + "oembed" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-pattern-library", + "repositoryURL": "https://github.com/18F/jekyll-oembed", "laborHours": 0, "organization": "18F" }, { - "name": "tock-management-reports", - "description": "A couple of scripts I use to monitor Tock data.", + "name": "uswds-jekyll", + "description": "A Jekyll theme showcasing the U.S. Web Design System (coowned by 18F and the USWDS team)", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "government", + "jekyll-theme", + "uswds" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tock-management-reports", + "repositoryURL": "https://github.com/18F/uswds-jekyll", "laborHours": 0, "organization": "18F" }, { - "name": "tock-task-timer-script", - "description": "A browser userscript that add task timer capability to Tock", + "name": "cms-apd-prototype-budget-table", + "description": "A prototype web app for building APD budget tables", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "apd", + "cms", + "mdbt", + "mmis", + "prototype" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tock-task-timer-script", + "repositoryURL": "https://github.com/18F/cms-apd-prototype-budget-table", "laborHours": 0, "organization": "18F" }, { - "name": "acquisitions.18f.gov", - "description": "acquisitions.18f.gov", + "name": "acq-mo-medicaid-prototype-realtime-view", + "description": "Prototype for the state of Missouri realtime view of Medicaid payments, coverage, and eligibility", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "government", + "medicaid", + "missouri", + "mmis", + "prototype" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acquisitions.18f.gov", + "repositoryURL": "https://github.com/18F/acq-mo-medicaid-prototype-realtime-view", "laborHours": 0, "organization": "18F" }, { - "name": "windows_stig_cookbook", - "description": "Converge a Windows server to DOD STIG", + "name": "redis-session-store", + "description": "A simple session store for Rails based on Redis.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -23718,13 +27639,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/windows_stig_cookbook", + "repositoryURL": "https://github.com/18F/redis-session-store", "laborHours": 0, "organization": "18F" }, { - "name": "pdf_parser", - "description": "pdf_parser", + "name": "NASA-SBIR-STTR", + "description": "Working repository for the draft NASA SBIR / STTR content guide. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -23736,13 +27657,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pdf_parser", + "repositoryURL": "https://github.com/18F/NASA-SBIR-STTR", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-fugacious", - "description": "cg-deploy-fugacious", + "name": "djorm-ext-pgfulltext", + "description": "PostgreSQL full-text search integration with django orm.", "permissions": { "licenses": null, "usageType": "openSource", @@ -23754,13 +27675,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-fugacious", + "repositoryURL": "https://github.com/18F/djorm-ext-pgfulltext", "laborHours": 0, "organization": "18F" }, { - "name": "stickyfill", - "description": "`position: sticky` polyfill", + "name": "retext-simplify", + "description": "Check phrases for simpler alternatives", "permissions": { "licenses": [ { @@ -23772,38 +27693,38 @@ "exemptionText": null }, "tags": [ - "javascript", - "polyfill", - "sticky" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/stickyfill", + "repositoryURL": "https://github.com/18F/retext-simplify", "laborHours": 0, "organization": "18F" }, { - "name": "research", - "description": "research", + "name": "federalist-uswds-template", + "description": "A Federalist template that uses the U.S. Web Design Standards Jekyll theme", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "federalist", + "federalist-template", + "uswds" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/research", + "repositoryURL": "https://github.com/18F/federalist-uswds-template", "laborHours": 0, "organization": "18F" }, { - "name": "node-continua11y-reports", - "description": "Node module for converting pa11y (and potentially other format) reports to continua11y reports!", + "name": "dhs-next", + "description": "Source for a potential recruiting website for DHS CTO's DHSNext effort. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -23815,31 +27736,54 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/node-continua11y-reports", + "repositoryURL": "https://github.com/18F/dhs-next", + "laborHours": 0, + "organization": "18F" + }, + { + "name": "gdocs2md", + "description": "Documentation on using the Google Script GSA_TTS_gdocs2md", + "permissions": { + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], + "usageType": "openSource", + "exemptionText": null + }, + "tags": [ + "18F" + ], + "contact": { + "email": "18f@gsa.gov" + }, + "repositoryURL": "https://github.com/18F/gdocs2md", "laborHours": 0, "organization": "18F" }, { - "name": "node-continua11y-sitemapper", - "description": "Accessibility sitemap scraper for node ", + "name": "identity-site", + "description": "The login.gov site", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/node-continua11y-sitemapper", + "repositoryURL": "https://github.com/18F/identity-site", "laborHours": 0, "organization": "18F" }, { - "name": "s3-resource", - "description": "Concourse resource for interacting with AWS S3", + "name": "cg-deploy-prometheus", + "description": "cg-deploy-prometheus", "permissions": { "licenses": null, "usageType": "openSource", @@ -23851,31 +27795,32 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/s3-resource", + "repositoryURL": "https://github.com/18F/cg-deploy-prometheus", "laborHours": 0, "organization": "18F" }, { - "name": "18franklin", - "description": "A strong, neutral typeface for text or display", + "name": "nsf-sbir", + "description": "National Science Foundation - Small Business Innovation Research", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "typeface" + "nsf", + "sbir" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/18franklin", + "repositoryURL": "https://github.com/18F/nsf-sbir", "laborHours": 0, "organization": "18F" }, { - "name": "zap-analyzer", - "description": "Helps you sort through the results of an OWASP ZAP scan.", + "name": "analytics-reporter-api", + "description": "The Analytics API maintains the schema for the database that the Analytics Reporter writes to.", "permissions": { "licenses": null, "usageType": "openSource", @@ -23887,13 +27832,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/zap-analyzer", + "repositoryURL": "https://github.com/18F/analytics-reporter-api", "laborHours": 0, "organization": "18F" }, { - "name": "the-reckoning", - "description": "Application for integrating several accounting related data sources", + "name": "cf-dockerized-buildpack", + "description": "Experiment to create Docker containers that approximate the runtime environment of CloudFoundry buildpacks running on the cflinuxfs2 stack.", "permissions": { "licenses": null, "usageType": "openSource", @@ -23905,13 +27850,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/the-reckoning", + "repositoryURL": "https://github.com/18F/cf-dockerized-buildpack", "laborHours": 0, "organization": "18F" }, { - "name": "accessibility-practice-site", - "description": "A jekyll based website used for practicing accessibility testing", + "name": "apps-gov", + "description": "Be more productive", "permissions": { "licenses": null, "usageType": "openSource", @@ -23923,13 +27868,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/accessibility-practice-site", + "repositoryURL": "https://github.com/18F/apps-gov", "laborHours": 0, "organization": "18F" }, { - "name": "far-cry", - "description": "Small Ruby library for sending parsed Federal Acquisitions Regulations data to an API", + "name": "pages-redirects", + "description": "Redirects traffic from previous pages.18f.gov sites to their new URLs.", "permissions": { "licenses": null, "usageType": "openSource", @@ -23941,31 +27886,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/far-cry", + "repositoryURL": "https://github.com/18F/pages-redirects", "laborHours": 0, "organization": "18F" }, { - "name": "identity-monitor", - "description": "smoke test login.gov", + "name": "product-training", + "description": "A modular curriculum for unlocking skilled product managers", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-monitor", + "repositoryURL": "https://github.com/18F/product-training", "laborHours": 0, "organization": "18F" }, { - "name": "ie11_stig_dsc", - "description": "Demo DSC, Desired State Configuration, for Internet Explorer STIG ", + "name": "crime-data-prototypes", + "description": "quick UI explorations / concepts", "permissions": { "licenses": null, "usageType": "openSource", @@ -23977,13 +27922,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ie11_stig_dsc", + "repositoryURL": "https://github.com/18F/crime-data-prototypes", "laborHours": 0, "organization": "18F" }, { - "name": "micropurchase-auctions", - "description": "A repo where anyone can add suggested micro-purchase auctions", + "name": "acq-stack-track-app", + "description": "a tool for requesting and tracking acquisitions for TTS >$3500", "permissions": { "licenses": null, "usageType": "openSource", @@ -23995,13 +27940,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/micropurchase-auctions", + "repositoryURL": "https://github.com/18F/acq-stack-track-app", "laborHours": 0, "organization": "18F" }, { - "name": "e-QIP-prototype", - "description": "A prototype for the e-QIP form. For more information: https://github.com/18F/bpa-opm-eqip", + "name": "better-government", + "description": "The Better Government Program helps create a better relationship between government and the public. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -24013,32 +27958,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/e-QIP-prototype", + "repositoryURL": "https://github.com/18F/better-government", "laborHours": 0, "organization": "18F" }, { - "name": "generator-uswds", - "description": "A Yeoman generator for the U.S. Web Design Standards", + "name": "uaa-customized-boshrelease", + "description": "Customized options added on top of CloudFoundry uaa-release", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "uswds", - "yeoman-generator" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/generator-uswds", + "repositoryURL": "https://github.com/18F/uaa-customized-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cf-redirect", - "description": "Small static app to redirect one domain to another", + "name": "issue-tracker-report", + "description": "quick script to generate a number of issues created / waiting blocked / resolved", "permissions": { "licenses": null, "usageType": "openSource", @@ -24050,33 +27994,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-redirect", + "repositoryURL": "https://github.com/18F/issue-tracker-report", "laborHours": 0, "organization": "18F" }, { - "name": "calc-analysis", - "description": "Data science experiments and analysis regarding the CALC project.", + "name": "a11y-metrics", + "description": "An experiment in obtaining accessibility metrics across all 18F projects.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "accessibility" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/calc-analysis", + "repositoryURL": "https://github.com/18F/a11y-metrics", "laborHours": 0, "organization": "18F" }, { - "name": "skills_share", - "description": "skills_share", + "name": "slate", + "description": "The simplest way to extract text from PDFs in Python", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-3.0", + "name": "GPL-3.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -24086,13 +28035,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/skills_share", + "repositoryURL": "https://github.com/18F/slate", "laborHours": 0, "organization": "18F" }, { - "name": "ops-improvements", - "description": "ops-improvements", + "name": "cf-cd-example", + "description": "Example: Continuous deployment to Cloud Foundry", "permissions": { "licenses": null, "usageType": "openSource", @@ -24104,37 +28053,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/ops-improvements", + "repositoryURL": "https://github.com/18F/cf-cd-example", "laborHours": 0, "organization": "18F" }, { - "name": "Paid-Leave-Prototype", - "description": "A proof of concept state paid family medical leave system", + "name": "dpl", + "description": "Dpl (dee-pee-ell) is a deploy tool made for continuous deployment.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "application", - "dol", - "form", - "government", - "json-schema", - "labor", - "paid-leave" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/Paid-Leave-Prototype", + "repositoryURL": "https://github.com/18F/dpl", "laborHours": 0, "organization": "18F" }, { - "name": "notifications", - "description": "The notifications service component of CloudFoundry", + "name": "OPP-BusinessUSA-research", + "description": "Process artifacts and findings from the OPP-BusinessUSA foundation engagement in Spring 2017", "permissions": { "licenses": null, "usageType": "openSource", @@ -24146,13 +28094,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/notifications", + "repositoryURL": "https://github.com/18F/OPP-BusinessUSA-research", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-notifications", - "description": "cg-deploy-notifications", + "name": "install-dod-roots", + "description": "Installs DOD root certificates into the macOS keychain", "permissions": { "licenses": null, "usageType": "openSource", @@ -24164,104 +28112,112 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-notifications", + "repositoryURL": "https://github.com/18F/install-dod-roots", "laborHours": 0, "organization": "18F" }, { - "name": "identity-pii-management", - "description": "Deprecated static site for login.gov security", + "name": "crime-data-explorer", + "description": "Main project repo for the FBI Crime Data Explorer project", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov", - "login-gov-deprecated" + "crime-data", + "government-data" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-pii-management", + "repositoryURL": "https://github.com/18F/crime-data-explorer", "laborHours": 0, "organization": "18F" }, { - "name": "postgres", - "description": "Mirror of the official PostgreSQL GIT repository. Note that this is just a *mirror* - we don't work with pull requests on github. To contribute, please see http://wiki.postgresql.org/wiki/Submitting_a_Patch", + "name": "permit-finder", + "description": "PROTOTYPE - Search for public lands in an area", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/postgres", + "repositoryURL": "https://github.com/18F/permit-finder", "laborHours": 0, "organization": "18F" }, { - "name": "uswds-jekyll-legacy", - "description": "This is an unmaintained fork of the U.S. Web Design Standards Jekyll theme created by the U.S. Digital Service", + "name": "fs-permit-platform", + "description": "Module for intake of special use applications for Forest Service Application Permits", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "agile", + "agile-bpa", + "forest-service", + "government" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/uswds-jekyll-legacy", + "repositoryURL": "https://github.com/18F/fs-permit-platform", "laborHours": 0, "organization": "18F" }, { - "name": "git-seekret", - "description": "Git module to prevent from committing sensitive information into the repository.", + "name": "fs-online-permitting", + "description": "The focal point for 18F/TTS project with the United States Forest Service ePermitting project", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "agile", + "agile-bpa", + "forest-service", + "government", + "land-management", + "permitting" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/git-seekret", + "repositoryURL": "https://github.com/18F/fs-online-permitting", "laborHours": 0, "organization": "18F" }, { - "name": "cloud-native-aws-terraform-workshop", - "description": "A 1-day training class on how to deploy a cloud native app on AWS with Terraform and shell scripts", + "name": "foia-recommendations", + "description": "National FOIA Project: Research and Recommendations", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "foia" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cloud-native-aws-terraform-workshop", + "repositoryURL": "https://github.com/18F/foia-recommendations", "laborHours": 0, "organization": "18F" }, { - "name": "far-clauses-tool", - "description": "A tool to help identify required FAR clauses for contract types", + "name": "codeclimate-bandit", + "description": "[WORK IN PROGRESS] Code Climate engine for running the Bandit static analysis tool on Python code. Help wanted!", "permissions": { "licenses": null, "usageType": "openSource", @@ -24273,31 +28229,33 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/far-clauses-tool", + "repositoryURL": "https://github.com/18F/codeclimate-bandit", "laborHours": 0, "organization": "18F" }, { - "name": "federal-apis", - "description": "The APIs of the US federal government. ", + "name": "hud-disaster-data", + "description": "Working pilot of a portal that collects and displays Community Development Block Grant-Disaster Recovery (CDBG-DR) data.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "disaster-recovery", + "government", + "housing" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federal-apis", + "repositoryURL": "https://github.com/18F/hud-disaster-data", "laborHours": 0, "organization": "18F" }, { - "name": "test-docsite", - "description": "Testing out a documentation format based on Poole/Hyde", + "name": "html-proofer", + "description": "Test your rendered HTML files to make sure they're accurate.", "permissions": { "licenses": [ { @@ -24314,31 +28272,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/test-docsite", + "repositoryURL": "https://github.com/18F/html-proofer", "laborHours": 0, "organization": "18F" }, { - "name": "visual-design", - "description": "Resources, assets, and discussion focussed on visual design issues.", + "name": "wait-for-federalist", + "description": "A utility to wait for Federalist builds before running CI tests", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "federalist" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/visual-design", + "repositoryURL": "https://github.com/18F/wait-for-federalist", "laborHours": 0, "organization": "18F" }, { - "name": "cf-route-lookup", - "description": "A Cloud Foundry CLI plugin to find the application(s) associated with a given hostname", + "name": "jekyll-macos-services", + "description": "Automator workflows to help manage Jekyll sites", "permissions": { "licenses": null, "usageType": "openSource", @@ -24350,51 +28308,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-route-lookup", - "laborHours": 0, - "organization": "18F" - }, - { - "name": "identity-analysis-sandbox", - "description": "Analytics prototype for login.gov", - "permissions": { - "licenses": null, - "usageType": "openSource", - "exemptionText": null - }, - "tags": [ - "login-gov", - "login-gov-deprecated" - ], - "contact": { - "email": "18f@gsa.gov" - }, - "repositoryURL": "https://github.com/18F/identity-analysis-sandbox", + "repositoryURL": "https://github.com/18F/jekyll-macos-services", "laborHours": 0, "organization": "18F" }, { - "name": "crime-data-frontend", - "description": "Visualization and download tools for exploring the FBI’s Uniform Crime Reporting (UCR) data", + "name": "clinical-trials-prototype", + "description": "clinical-trials-prototype", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "crime-data", - "government-data" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/crime-data-frontend", + "repositoryURL": "https://github.com/18F/clinical-trials-prototype", "laborHours": 0, "organization": "18F" }, { - "name": "crime-data-style", - "description": "A visual style guide and component library for the Crime Data Explorer", + "name": "cg-billing", + "description": "cg-billing", "permissions": { "licenses": null, "usageType": "openSource", @@ -24406,31 +28344,33 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/crime-data-style", + "repositoryURL": "https://github.com/18F/cg-billing", "laborHours": 0, "organization": "18F" }, { - "name": "pa11y-crawl-docker", - "description": "A Docker image for pa11y-crawl", + "name": "django-uswds-forms", + "description": "Django Forms integration with the U.S. Web Design Standards", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "django", + "forms", + "uswds" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pa11y-crawl-docker", + "repositoryURL": "https://github.com/18F/django-uswds-forms", "laborHours": 0, "organization": "18F" }, { - "name": "seekret", - "description": "Go library and command line to seek for secrets on various sources.", + "name": "18f-capacity-planning", + "description": "A prototype for 18F staffing", "permissions": { "licenses": null, "usageType": "openSource", @@ -24442,13 +28382,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/seekret", + "repositoryURL": "https://github.com/18F/18f-capacity-planning", "laborHours": 0, "organization": "18F" }, { - "name": "tts-engage", - "description": "An open working group devoted to making TTS a great place to work. ", + "name": "cg-cert-check", + "description": "Notify a slack channel when certificates in bosh manifests or used by ELBs are about to expire.", "permissions": { "licenses": null, "usageType": "openSource", @@ -24460,31 +28400,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-engage", + "repositoryURL": "https://github.com/18F/cg-cert-check", "laborHours": 0, "organization": "18F" }, { - "name": "acqstack-journeymap", - "description": "acqstack-journeymap", + "name": "identity-devops-private", + "description": "Private infrastructure repository for login.gov", "permissions": { "licenses": null, - "usageType": "openSource", + "usageType": "governmentWideReuse", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acqstack-journeymap", + "repositoryURL": null, "laborHours": 0, "organization": "18F" }, { - "name": "nsf-sbir-sprint", - "description": "National Science Foundation", + "name": "acq-presentations", + "description": "A place to capture TTS acquisition presentations: training, facilitation", "permissions": { "licenses": null, "usageType": "openSource", @@ -24496,13 +28436,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/nsf-sbir-sprint", + "repositoryURL": "https://github.com/18F/acq-presentations", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-s3-broker", - "description": "cg-deploy-s3-broker", + "name": "insite-privacy", + "description": "Working repository for collaboration with GSA Privacy Office", "permissions": { "licenses": null, "usageType": "openSource", @@ -24514,72 +28454,78 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-s3-broker", + "repositoryURL": "https://github.com/18F/insite-privacy", "laborHours": 0, "organization": "18F" }, { - "name": "fs-permit-api-schemas", - "description": "Draft schemas of permit types to be used in the Forest Service Online Permit Project", + "name": "swid-prototype", + "description": "swid-prototype", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "forest-service", - "schema" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fs-permit-api-schemas", + "repositoryURL": "https://github.com/18F/swid-prototype", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-redirects", - "description": "RETIRED: Redirects from custom domains to Federalist", + "name": "angular-webapi-authentication-example", + "description": "AngularJS + ASP.NET Web API 2 - Basic HTTP Authentication Example", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "unmaintained" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-redirects", + "repositoryURL": "https://github.com/18F/angular-webapi-authentication-example", "laborHours": 0, "organization": "18F" }, { - "name": "bpa-fs-epermit-api", - "description": "This task order is for an Application Protocol Interface (API) layer future applications could use to read and write to SUDS, an Oracle system.", + "name": "State-TalentMAP", + "description": "A comprehensive research, bidding, and matching system to match Foreign Service employees with the right skills to available posts and positions.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18f", - "agile-bpa", - "api", - "forest-service", - "government" + "foreign-service", + "foreign-service-bidding", + "hr", + "skills-marketplace", + "talentmap", + "talentmap-api", + "tts" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bpa-fs-epermit-api", + "repositoryURL": "https://github.com/18F/State-TalentMAP", "laborHours": 0, "organization": "18F" }, { - "name": "micropurchase-skills", - "description": "Ruby script for understanding the skills of Micro-purchase bidders", + "name": "acq-tech-presentations", + "description": "Static site of presentations for AcqStack tech topics", "permissions": { "licenses": null, "usageType": "openSource", @@ -24591,20 +28537,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/micropurchase-skills", + "repositoryURL": "https://github.com/18F/acq-tech-presentations", "laborHours": 0, "organization": "18F" }, { - "name": "united", - "description": "An experimental atomic css prototype framework, developed for prototyping patterns for cloud.gov.", + "name": "cg-customers", + "description": "The 'single source of truth' for high-level information about cloud.gov customers.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -24614,31 +28555,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/united", + "repositoryURL": "https://github.com/18F/cg-customers", "laborHours": 0, "organization": "18F" }, { - "name": "wait-for-it", - "description": "Pure bash script to test and wait on the availability of a TCP host and port", + "name": "tts-buy-sites-challenge", + "description": "Solicitation documents related to the purchase of hosting services for Sites.USA.gov and Challenge.gov.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "challenge-gov", + "fedramp", + "government", + "gsa", + "hosting", + "opp", + "sites-usa-gov", + "tts" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wait-for-it", + "repositoryURL": "https://github.com/18F/tts-buy-sites-challenge", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-rds-broker", - "description": "cg-deploy-rds-broker", + "name": "django-email-pal", + "description": "Easy HTML and plaintext email sending for Django.", "permissions": { "licenses": null, "usageType": "openSource", @@ -24650,13 +28598,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-rds-broker", + "repositoryURL": "https://github.com/18F/django-email-pal", "laborHours": 0, "organization": "18F" }, { - "name": "innovation-toolkit-prototype", - "description": "http://federalist.18f.gov.s3-website-us-east-1.amazonaws.com/site/18f/innovation-toolkit-prototype/", + "name": "Ops-GAS-Public", + "description": "A collection of Google Apps Scripts used for 18F operations", "permissions": { "licenses": null, "usageType": "openSource", @@ -24668,13 +28616,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/innovation-toolkit-prototype", + "repositoryURL": "https://github.com/18F/Ops-GAS-Public", "laborHours": 0, "organization": "18F" }, { - "name": "cf-service-connect", - "description": "Cloud Foundry CLI Service Connection Plugin", + "name": "FFD_landuse", + "description": "Research and recommendations to address the various, cross-government, procedures that affect outdoors guides and outfitters.", "permissions": { "licenses": null, "usageType": "openSource", @@ -24686,13 +28634,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-service-connect", + "repositoryURL": "https://github.com/18F/FFD_landuse", "laborHours": 0, "organization": "18F" }, { - "name": "nsf-sbir-02", - "description": "nsf-sbir-02", + "name": "opm-faces", + "description": "OPM FACES Discovery engagement", "permissions": { "licenses": null, "usageType": "openSource", @@ -24704,13 +28652,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/nsf-sbir-02", + "repositoryURL": "https://github.com/18F/opm-faces", "laborHours": 0, "organization": "18F" }, { - "name": "concourse-broker", - "description": "A Cloud Foundry service broker for Concourse CI", + "name": "tis-discovery", + "description": "Project materials for the Team Integration System discovery project", "permissions": { "licenses": null, "usageType": "openSource", @@ -24722,69 +28670,81 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/concourse-broker", + "repositoryURL": "https://github.com/18F/tis-discovery", "laborHours": 0, "organization": "18F" }, { - "name": "omb-eregs", - "description": "A tool to find, read, and maintain White House Office of Management and Budget (OMB) policy requirements", + "name": "tts-buy-cloudgov-vulnerability-scanner", + "description": "Solicitation and acquisition documents created for the cloud.gov Vulnerability Scanner procurement that can be reused by other government agencies and organizations.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "cloud", + "government", + "gsa", + "infrastructure", + "open-government", + "scanner", + "tts", + "vulnerability" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/omb-eregs", + "repositoryURL": "https://github.com/18F/tts-buy-cloudgov-vulnerability-scanner", "laborHours": 0, "organization": "18F" }, { - "name": "identity-openidconnect-ios-client", - "description": "Example OpenID Connect client for login.gov for iOS", + "name": "identity-devops-private.example", + "description": "Example configuration data for https://github.com/18F/identity-devops", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-openidconnect-ios-client", + "repositoryURL": "https://github.com/18F/identity-devops-private.example", "laborHours": 0, "organization": "18F" }, { - "name": "Level-Up", - "description": "Level-Up", + "name": "identity-ux", + "description": "User flow tool", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/Level-Up", + "repositoryURL": "https://github.com/18F/identity-ux", "laborHours": 0, "organization": "18F" }, { - "name": "nsf-sbir-03", - "description": "nsf-sbir-03", + "name": "django-admin-interface", + "description": "django-admin-interface is a customizable responsive admin interface, based on a modern flat theme, it lets you customize the admin title, logo and colors by the admin itself.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -24794,13 +28754,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/nsf-sbir-03", + "repositoryURL": "https://github.com/18F/django-admin-interface", "laborHours": 0, "organization": "18F" }, { - "name": "SkillShare", - "description": "SkillShare", + "name": "e-qip-prototype-info-test", + "description": "e-qip-prototype-info-test", "permissions": { "licenses": null, "usageType": "openSource", @@ -24812,31 +28772,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/SkillShare", + "repositoryURL": "https://github.com/18F/e-qip-prototype-info-test", "laborHours": 0, "organization": "18F" }, { - "name": "slack-github-issues", - "description": "Library for using Slack reaction_added events to file GitHub issues", + "name": "State-TalentMAP-API", + "description": "API layer for https://github.com/18F/State-TalentMAP", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "foreign-service", + "hr", + "skills-marketplace", + "talentmap", + "talentmap-api", + "tts" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/slack-github-issues", + "repositoryURL": "https://github.com/18F/State-TalentMAP-API", "laborHours": 0, "organization": "18F" }, { - "name": "deploy-ttslicenses", - "description": "Build scripts and templates for ttslicenses", + "name": "tts-bug-bounty-dashboard", + "description": "A prototype dashboard for the TTS bug bounty program.", "permissions": { "licenses": null, "usageType": "openSource", @@ -24848,13 +28813,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/deploy-ttslicenses", + "repositoryURL": "https://github.com/18F/tts-bug-bounty-dashboard", "laborHours": 0, "organization": "18F" }, { - "name": "cf-limit-check", - "description": "cf-limit-check", + "name": "analytics-restarter", + "description": "Triggers nightly builds for the apps that makeup the analytics.usa.gov system", "permissions": { "licenses": null, "usageType": "openSource", @@ -24866,55 +28831,54 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-limit-check", + "repositoryURL": "https://github.com/18F/analytics-restarter", "laborHours": 0, "organization": "18F" }, { - "name": "tts-buy-bug-bounty", - "description": "Solicitation and acquisition documents created for the TTS Bug Bounty program that can be reused by other government agencies and organizations.", + "name": "bpa-fs-xmas-trees", + "description": "bpa-fs-xmas-trees", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "bounty", - "bug", + "agile", + "agile-bpa", + "forest-service", "government", - "gsa", - "open-government", - "tts", - "tts-bug-bounty" + "land-permitting", + "permitting" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-buy-bug-bounty", + "repositoryURL": "https://github.com/18F/bpa-fs-xmas-trees", "laborHours": 0, "organization": "18F" }, { - "name": "atul-docker-presentation", - "description": "A presentation about Docker and an example Dockerized project.", + "name": "identity-oidc-aspnet", + "description": "An OpenID Connect client for ASP.NET MVC", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/atul-docker-presentation", + "repositoryURL": "https://github.com/18F/identity-oidc-aspnet", "laborHours": 0, "organization": "18F" }, { - "name": "tts-homepage", - "description": "tts-homepage", + "name": "800-63-3", + "description": "Home to public development of draft Special Publication 800-63-3: Digital Authentication Guidelines", "permissions": { "licenses": null, "usageType": "openSource", @@ -24926,32 +28890,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-homepage", + "repositoryURL": "https://github.com/18F/800-63-3", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-proxy", - "description": "Proxies traffic from the Federalist S3 bucket", + "name": "acq-code-review-demo", + "description": "acq-code-review-demo", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "federalist", - "federalist-core" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-proxy", + "repositoryURL": "https://github.com/18F/acq-code-review-demo", "laborHours": 0, "organization": "18F" }, { - "name": "cg-django-uaa", - "description": "A cloud.gov UAA authentication backend for Django", + "name": "DataChallengesReport", + "description": "Results of a 2016 study investigated data challenges across the federal government.", "permissions": { "licenses": null, "usageType": "openSource", @@ -24963,36 +28926,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-django-uaa", + "repositoryURL": "https://github.com/18F/DataChallengesReport", "laborHours": 0, "organization": "18F" }, { - "name": "bpa-fs-epermit-intake", - "description": "The scope of this task order is for a public front-end intake module for use by non-commercial groups, temporary outfitter, and guide permits.", + "name": "GDVP", + "description": "Generic Data Validator Platform", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "agile-bpa", - "forest-service", - "front-end-development", - "government" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bpa-fs-epermit-intake", + "repositoryURL": "https://github.com/18F/GDVP", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-uaa-guard-broker", - "description": "UAA proxy service as a broker", + "name": "d3", + "description": "Bring data to life with SVG, Canvas and HTML. :bar_chart::chart_with_upwards_trend::tada:", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/bsd-3-clause", + "name": "BSD-3-Clause" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -25002,33 +28967,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-uaa-guard-broker", + "repositoryURL": "https://github.com/18F/d3", "laborHours": 0, "organization": "18F" }, { - "name": "accessibility-playbook", - "description": "Practices for embedding accessibility and inclusive design into 18F teams", + "name": "pclob", + "description": "The Privacy and Civil Liberties Oversight Board (PCLOB) website.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "a11y", - "accessibility", - "government" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/accessibility-playbook", + "repositoryURL": "https://github.com/18F/pclob", "laborHours": 0, "organization": "18F" }, { - "name": "unified-analytics-dashboard", - "description": "[WIP] Ideas for a proposed unified analytics hub ", + "name": "an_introduction_to_python", + "description": "An introduction to Python - https://www.digitalgov.gov/event/online-intro-to-python/", "permissions": { "licenses": null, "usageType": "openSource", @@ -25040,13 +29003,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/unified-analytics-dashboard", + "repositoryURL": "https://github.com/18F/an_introduction_to_python", "laborHours": 0, "organization": "18F" }, { - "name": "cf-list-services-in-org", - "description": "List all cf services in the current org", + "name": "dol-whisard", + "description": "[WIP] Wage and Hour Investigative Support and Reporting Database (WHISARD) MVP", "permissions": { "licenses": null, "usageType": "openSource", @@ -25058,15 +29021,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-list-services-in-org", + "repositoryURL": "https://github.com/18F/dol-whisard", "laborHours": 0, "organization": "18F" }, { - "name": "third-party-services", - "description": "Researching the use of 3rd party services by .gov websites", + "name": "logsearch-boshrelease", + "description": "A BOSH-scalable ELK release", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -25076,15 +29044,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/third-party-services", + "repositoryURL": "https://github.com/18F/logsearch-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "cg-sandbox", - "description": "cg-sandbox", + "name": "nsf", + "description": "Repo for the NSF Site Redesign & Content Discovery project", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -25094,59 +29067,66 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-sandbox", + "repositoryURL": "https://github.com/18F/nsf", "laborHours": 0, "organization": "18F" }, { - "name": "bpa-disaster-data-portal-pilot", - "description": "The scope of this task is to build a working pilot of a portal that collects and displays Community Development Block Grant – Disaster Recovery (CDBG-DR) data.", + "name": "dig-a", + "description": "Self-executable DNS lookup command just for A records", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18f", - "agile-bpa", - "diaster-data", - "disaster-recovery", - "fema", - "government", - "hud", - "solicitation", - "tts" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bpa-disaster-data-portal-pilot", + "repositoryURL": "https://github.com/18F/dig-a", "laborHours": 0, "organization": "18F" }, { - "name": "identity-openidconnect-sinatra", - "description": "Example OpenID Connect relying party as a Sinatra app", + "name": "dig-srv", + "description": "Self-executable DNS lookup command just for SRV records", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-openidconnect-sinatra", + "repositoryURL": "https://github.com/18F/dig-srv", "laborHours": 0, "organization": "18F" }, { - "name": "call-me-maybe", - "description": "A simple way to embed contact forms for recruiting", + "name": "redis-sentinel-proxy", + "description": "redis-sentinel-proxy", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -25156,33 +29136,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/call-me-maybe", + "repositoryURL": "https://github.com/18F/redis-sentinel-proxy", "laborHours": 0, "organization": "18F" }, { - "name": "bpa-DOS-TalentMAP", - "description": "Procurement documents for the Department of State TalentMAP system, which will replace the existing Foreign Service Bidding application to match bidders to available posts and positions.", + "name": "citadel", + "description": "Chef cookbook to help store secrets in S3 in a secure fashion", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "agile-bpa", - "foreign-service-bidding", - "state-department" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bpa-DOS-TalentMAP", + "repositoryURL": "https://github.com/18F/citadel", "laborHours": 0, "organization": "18F" }, { - "name": "fs-middlelayer-api", - "description": "fs-middlelayer-api", + "name": "kubernetes-broker-exporter", + "description": "kubernetes-broker-exporter", "permissions": { "licenses": null, "usageType": "openSource", @@ -25194,13 +29177,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fs-middlelayer-api", + "repositoryURL": "https://github.com/18F/kubernetes-broker-exporter", "laborHours": 0, "organization": "18F" }, { - "name": "fec-infrastructure", - "description": "fec-infrastructure", + "name": "dotgov-support", + "description": "Repository for dotgov transition from OGP to TTS", "permissions": { "licenses": null, "usageType": "openSource", @@ -25212,15 +29195,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fec-infrastructure", + "repositoryURL": "https://github.com/18F/dotgov-support", "laborHours": 0, "organization": "18F" }, { - "name": "omb-eregs-prototypes", - "description": "Prototypes for omb-eregs. This repository is deprecated.", + "name": "citadel-build", + "description": "Built version of https://github.com/18F/citadel.git using `rake chef:build`", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -25230,13 +29218,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/omb-eregs-prototypes", + "repositoryURL": "https://github.com/18F/citadel-build", "laborHours": 0, "organization": "18F" }, { - "name": "clinical-trials", - "description": "clinical-trials", + "name": "fs-cloud-gov-migration", + "description": "A repository to help migrate to a new cloud.gov org", "permissions": { "licenses": null, "usageType": "openSource", @@ -25248,96 +29236,95 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/clinical-trials", + "repositoryURL": "https://github.com/18F/fs-cloud-gov-migration", "laborHours": 0, "organization": "18F" }, { - "name": "jekyll-oembed", - "description": "OEmbed Liquid Tag gem for Jekyll", + "name": "redux-textarea-debounce", + "description": "textarea component whose onchange is debounced, perfect for use in redux apps", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "jekyll", - "jekyll-plugin", - "oembed" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/jekyll-oembed", + "repositoryURL": "https://github.com/18F/redux-textarea-debounce", "laborHours": 0, "organization": "18F" }, { - "name": "uswds-jekyll", - "description": "A Jekyll theme showcasing the U.S. Web Design Standards (owned by USWDS team)", + "name": "cloud-foundry-cli", + "description": "Image for running the Cloud Foundry CLI", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "jekyll-theme", - "uswds" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/uswds-jekyll", + "repositoryURL": "https://github.com/18F/cloud-foundry-cli", "laborHours": 0, "organization": "18F" }, { - "name": "cms-apd-prototype-budget-table", - "description": "A prototype web app for building APD budget tables", + "name": "docker-boshrelease", + "description": "Docker BOSH Release", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "apd", - "cms", - "mdbt", - "mmis", - "prototype" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cms-apd-prototype-budget-table", + "repositoryURL": "https://github.com/18F/docker-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "acq-mo-medicaid-prototype-realtime-view", - "description": "Prototype for the state of Missouri realtime view of Medicaid payments, coverage, and eligibility", + "name": "cloud-marketplaceholder", + "description": "A sandbox", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "government", - "medicaid", - "missouri", - "mmis", - "prototype" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acq-mo-medicaid-prototype-realtime-view", + "repositoryURL": "https://github.com/18F/cloud-marketplaceholder", "laborHours": 0, "organization": "18F" }, { - "name": "redis-session-store", - "description": "A simple session store for Rails based on Redis.", + "name": "uswds-simple-sass", + "description": "Simple example project that uses the SASS files of the U.S. Web Design System.", "permissions": { "licenses": null, "usageType": "openSource", @@ -25349,13 +29336,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/redis-session-store", + "repositoryURL": "https://github.com/18F/uswds-simple-sass", "laborHours": 0, "organization": "18F" }, { - "name": "NASA-SBIR-STTR", - "description": "Working repository for the draft NASA SBIR / STTR content guide. ", + "name": "gsa-it-standards-search", + "description": "Search GSA IT standards for approved software", "permissions": { "licenses": null, "usageType": "openSource", @@ -25367,13 +29354,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/NASA-SBIR-STTR", + "repositoryURL": "https://github.com/18F/gsa-it-standards-search", "laborHours": 0, "organization": "18F" }, { - "name": "djorm-ext-pgfulltext", - "description": "PostgreSQL full-text search integration with django orm.", + "name": "micropurchase-archive", + "description": "A static copy of micropurchase.18f.gov", "permissions": { "licenses": null, "usageType": "openSource", @@ -25385,15 +29372,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/djorm-ext-pgfulltext", + "repositoryURL": "https://github.com/18F/micropurchase-archive", "laborHours": 0, "organization": "18F" }, { - "name": "retext-simplify", - "description": "Check phrases for simpler alternatives", + "name": "elastalert-boshrelease", + "description": "elastalert-boshrelease", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -25403,33 +29395,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/retext-simplify", + "repositoryURL": "https://github.com/18F/elastalert-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-uswds-template", - "description": "A Federalist template that uses the U.S. Web Design Standards Jekyll theme", + "name": "trustymail", + "description": "Scan domains and return data based on trustworthy email best practices", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "federalist", - "federalist-template", - "uswds" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-uswds-template", + "repositoryURL": "https://github.com/18F/trustymail", "laborHours": 0, "organization": "18F" }, { - "name": "dhs-next", - "description": "Source for a potential recruiting website for DHS CTO's DHSNext effort. ", + "name": "boise", + "description": "working to reduce the burden and improve the effectiveness of software security compliance processes", "permissions": { "licenses": null, "usageType": "openSource", @@ -25441,20 +29431,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dhs-next", + "repositoryURL": "https://github.com/18F/boise", "laborHours": 0, "organization": "18F" }, { - "name": "gdocs2md", - "description": "Documentation on using the Google Script GSA_TTS_gdocs2md", + "name": "domain-scan-orchestration", + "description": "domain-scan-orchestration", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -25464,31 +29449,40 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/gdocs2md", + "repositoryURL": "https://github.com/18F/domain-scan-orchestration", "laborHours": 0, "organization": "18F" }, { - "name": "identity-site", - "description": "The login.gov site", + "name": "tts-buy-code-review", + "description": "Solicitation documents for the code review procurement being undertaken by TTS.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18f", + "approval-tracking", + "c2-communicart", + "code-review", + "government", + "joyful", + "procurement", + "ruby", + "ruby-on-rails", + "tts" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-site", + "repositoryURL": "https://github.com/18F/tts-buy-code-review", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-prometheus", - "description": "cg-deploy-prometheus", + "name": "uswds-crawler", + "description": "Tools for extracting information about how sites use the U.S. Web Design Standards.", "permissions": { "licenses": null, "usageType": "openSource", @@ -25500,32 +29494,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-prometheus", + "repositoryURL": "https://github.com/18F/uswds-crawler", "laborHours": 0, "organization": "18F" }, { - "name": "nsf-sbir", - "description": "National Science Foundation - Small Business Innovation Research", + "name": "cg-buildpack-notify", + "description": "Proactively encouraging cloud.gov customers to restage their apps so they can benefit from buildpack updates.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "nsf", - "sbir" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/nsf-sbir", + "repositoryURL": "https://github.com/18F/cg-buildpack-notify", "laborHours": 0, "organization": "18F" }, { - "name": "analytics-reporter-api", - "description": "The Analytics API maintains the schema for the database that the Analytics Reporter writes to.", + "name": "cf-ex-phpmyadmin", + "description": "CloudFoundry PHP example application: phpmyadmin", "permissions": { "licenses": null, "usageType": "openSource", @@ -25537,15 +29530,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/analytics-reporter-api", + "repositoryURL": "https://github.com/18F/cf-ex-phpmyadmin", "laborHours": 0, "organization": "18F" }, { - "name": "cf-dockerized-buildpack", - "description": "Experiment to create Docker containers that approximate the runtime environment of CloudFoundry buildpacks running on the cflinuxfs2 stack.", + "name": "michigan-benefits", + "description": "Digital Assister for Michigan", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -25555,15 +29553,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-dockerized-buildpack", + "repositoryURL": "https://github.com/18F/michigan-benefits", "laborHours": 0, "organization": "18F" }, { - "name": "apps-gov", - "description": "Be more productive", + "name": "cloud-marketplaceholder-placeholder", + "description": "cloud-marketplaceholder-placeholder", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -25573,31 +29576,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/apps-gov", + "repositoryURL": "https://github.com/18F/cloud-marketplaceholder-placeholder", "laborHours": 0, "organization": "18F" }, { - "name": "pages-redirects", - "description": "Redirects traffic from previous pages.18f.gov sites to their new URLs.", + "name": "connect.gov", + "description": "Static site to disambiguate login.gov and ConneCT.ct.gov", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pages-redirects", + "repositoryURL": "https://github.com/18F/connect.gov", "laborHours": 0, "organization": "18F" }, { - "name": "product-training", - "description": "A modular curriculum for unlocking skilled product managers", + "name": "project-guide", + "description": "A guide for managing projects at 18F", "permissions": { "licenses": null, "usageType": "openSource", @@ -25609,13 +29612,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/product-training", + "repositoryURL": "https://github.com/18F/project-guide", "laborHours": 0, "organization": "18F" }, { - "name": "crime-data-prototypes", - "description": "quick UI explorations / concepts", + "name": "uswds-data", + "description": "A data visualization guide for the U.S. Web Design Standards.", "permissions": { "licenses": null, "usageType": "openSource", @@ -25627,13 +29630,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/crime-data-prototypes", + "repositoryURL": "https://github.com/18F/uswds-data", "laborHours": 0, "organization": "18F" }, { - "name": "acq-stack-track-app", - "description": "a tool for requesting and tracking acquisitions for TTS >$3500", + "name": "fs-human-centered-design", + "description": "fs-human-centered-design", "permissions": { "licenses": null, "usageType": "openSource", @@ -25645,15 +29648,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acq-stack-track-app", + "repositoryURL": "https://github.com/18F/fs-human-centered-design", "laborHours": 0, "organization": "18F" }, { - "name": "better-government", - "description": "The Better Government Program helps create a better relationship between government and the public. ", + "name": "application_ruby", + "description": "Development repository for Opscode Cookbook application_ruby", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -25663,103 +29671,103 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/better-government", + "repositoryURL": "https://github.com/18F/application_ruby", "laborHours": 0, "organization": "18F" }, { - "name": "uaa-customized-boshrelease", - "description": "Customized options added on top of CloudFoundry uaa-release", + "name": "identity-oidc-java-spring-boot", + "description": "identity-oidc-java-spring-boot", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/uaa-customized-boshrelease", + "repositoryURL": "https://github.com/18F/identity-oidc-java-spring-boot", "laborHours": 0, "organization": "18F" }, { - "name": "issue-tracker-report", - "description": "quick script to generate a number of issues created / waiting blocked / resolved", + "name": "identity-oidc-java-spring-boot-xml", + "description": "identity-oidc-java-spring-boot-xml", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/issue-tracker-report", + "repositoryURL": "https://github.com/18F/identity-oidc-java-spring-boot-xml", "laborHours": 0, "organization": "18F" }, { - "name": "a11y-metrics", - "description": "An experiment in obtaining accessibility metrics across all 18F projects.", + "name": "identity-oidc-java-spring-security", + "description": "identity-oidc-java-spring-security", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "accessibility" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/a11y-metrics", + "repositoryURL": "https://github.com/18F/identity-oidc-java-spring-security", "laborHours": 0, "organization": "18F" }, { - "name": "slate", - "description": "The simplest way to extract text from PDFs in Python", + "name": "identity-oidc-python-django", + "description": "identity-oidc-python-django", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/slate", + "repositoryURL": "https://github.com/18F/identity-oidc-python-django", "laborHours": 0, "organization": "18F" }, { - "name": "cf-cd-example", - "description": "Example: Continuous deployment to Cloud Foundry", + "name": "identity-oidc-nodejs-express", + "description": "identity-oidc-nodejs-express", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-cd-example", + "repositoryURL": "https://github.com/18F/identity-oidc-nodejs-express", "laborHours": 0, "organization": "18F" }, { - "name": "dpl", - "description": "Dpl (dee-pee-ell) is a deploy tool made for continuous deployment.", + "name": "cg-deploy-volume-services", + "description": "cg-deploy-volume-services", "permissions": { "licenses": null, "usageType": "openSource", @@ -25771,13 +29779,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dpl", + "repositoryURL": "https://github.com/18F/cg-deploy-volume-services", "laborHours": 0, "organization": "18F" }, { - "name": "OPP-BusinessUSA-research", - "description": "Process artifacts and findings from the OPP-BusinessUSA foundation engagement in Spring 2017", + "name": "cf-multi-cups-plugin", + "description": "cloud foundry plugin", "permissions": { "licenses": null, "usageType": "openSource", @@ -25789,50 +29797,56 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/OPP-BusinessUSA-research", + "repositoryURL": "https://github.com/18F/cf-multi-cups-plugin", "laborHours": 0, "organization": "18F" }, { - "name": "install-dod-roots", - "description": "Installs DOD root certificates into the macOS keychain", + "name": "identity-oidc-groovy", + "description": "identity-oidc-groovy", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/install-dod-roots", + "repositoryURL": "https://github.com/18F/identity-oidc-groovy", "laborHours": 0, "organization": "18F" }, { - "name": "crime-data-explorer", - "description": "Main project repo for the FBI Crime Data Explorer project", + "name": "tts-internal-buy-starter-repo", + "description": "A starter repo that every TTS internal buy can clone to get started.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "crime-data", - "government-data" + "18f", + "acqstack", + "government", + "joyful", + "office-of-acquisition", + "procurement", + "tts", + "usa" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/crime-data-explorer", + "repositoryURL": "https://github.com/18F/tts-internal-buy-starter-repo", "laborHours": 0, "organization": "18F" }, { - "name": "permit-finder", - "description": "PROTOTYPE - Search for public lands in an area", + "name": "identity-hostdata", + "description": "Ruby gem to help read per-host configs", "permissions": { "licenses": null, "usageType": "openSource", @@ -25844,75 +29858,67 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/permit-finder", + "repositoryURL": "https://github.com/18F/identity-hostdata", "laborHours": 0, "organization": "18F" }, { - "name": "fs-intake-module", - "description": "Module for intake of special use applications for Forest Service Application Permits", + "name": "cg-client-event-tracker", + "description": "Rails based application for tracking and querying events", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "agile", - "agile-bpa", - "forest-service", - "government" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fs-intake-module", + "repositoryURL": "https://github.com/18F/cg-client-event-tracker", "laborHours": 0, "organization": "18F" }, { - "name": "fs-online-permitting", - "description": "The focal point for 18F/TTS project with the United States Forest Service ePermitting project", + "name": "disa-eagency", + "description": "disa-eagency", "permissions": { "licenses": null, "usageType": "openSource", - "exemptionText": null - }, - "tags": [ - "agile", - "agile-bpa", - "forest-service", - "government", - "land-management", - "permitting" + "exemptionText": null + }, + "tags": [ + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fs-online-permitting", + "repositoryURL": "https://github.com/18F/disa-eagency", "laborHours": 0, "organization": "18F" }, { - "name": "foia-recommendations", - "description": "National FOIA Project: Research and Recommendations", + "name": "cg-workshop", + "description": "Hands-on workshop with cloud.gov", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "foia" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/foia-recommendations", + "repositoryURL": "https://github.com/18F/cg-workshop", "laborHours": 0, "organization": "18F" }, { - "name": "codeclimate-bandit", - "description": "[WORK IN PROGRESS] Code Climate engine for running the Bandit static analysis tool on Python code. Help wanted!", + "name": "open-foia-redirect", + "description": "Simple static redirect explaining the open.foia.gov sunset", "permissions": { "licenses": null, "usageType": "openSource", @@ -25924,35 +29930,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/codeclimate-bandit", + "repositoryURL": "https://github.com/18F/open-foia-redirect", "laborHours": 0, "organization": "18F" }, { - "name": "hud-disaster-data", - "description": "Working pilot of a portal that collects and displays Community Development Block Grant-Disaster Recovery (CDBG-DR) data.", + "name": "sql_insert_writer", + "description": "Helps make long SQL INSERT statements readably", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "disaster-recovery", - "government", - "housing" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/hud-disaster-data", + "repositoryURL": "https://github.com/18F/sql_insert_writer", "laborHours": 0, "organization": "18F" }, { - "name": "html-proofer", - "description": "Test your rendered HTML files to make sure they're accurate.", + "name": "oauth2-proxy-boshrelease", + "description": "oauth2-proxy-boshrelease", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -25962,31 +29971,32 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/html-proofer", + "repositoryURL": "https://github.com/18F/oauth2-proxy-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "wait-for-federalist", - "description": "A utility to wait for Federalist builds before running CI tests", + "name": "performance-gov-research", + "description": "18F Discovery engagement to identify users and determine strategy for a new performance.gov", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "federalist" + "active", + "performance" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/wait-for-federalist", + "repositoryURL": "https://github.com/18F/performance-gov-research", "laborHours": 0, "organization": "18F" }, { - "name": "jekyll-macos-services", - "description": "Automator workflows to help manage Jekyll sites", + "name": "cg-secret-rotation", + "description": "cg-secret-rotation", "permissions": { "licenses": null, "usageType": "openSource", @@ -25998,13 +30008,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/jekyll-macos-services", + "repositoryURL": "https://github.com/18F/cg-secret-rotation", "laborHours": 0, "organization": "18F" }, { - "name": "clinical-trials-prototype", - "description": "clinical-trials-prototype", + "name": "federalist-report-template", + "description": "A Federalist template to display a report or memo", "permissions": { "licenses": null, "usageType": "openSource", @@ -26016,13 +30026,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/clinical-trials-prototype", + "repositoryURL": "https://github.com/18F/federalist-report-template", "laborHours": 0, "organization": "18F" }, { - "name": "cg-billing", - "description": "cg-billing", + "name": "data-federation-report", + "description": "Findings from data federation research project", "permissions": { "licenses": null, "usageType": "openSource", @@ -26034,51 +30044,56 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-billing", + "repositoryURL": "https://github.com/18F/data-federation-report", "laborHours": 0, "organization": "18F" }, { - "name": "django-uswds-forms", - "description": "Django Forms integration with the U.S. Web Design Standards", + "name": "datagen", + "description": "Generate dummy data with a simple schema format", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "django", - "forms", - "uswds" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-uswds-forms", + "repositoryURL": "https://github.com/18F/datagen", "laborHours": 0, "organization": "18F" }, { - "name": "18f-capacity-planning", - "description": "A prototype for 18F staffing", + "name": "tts-buy-document-authentication-services", + "description": "Solicitation documents related to document authentication services.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "document-authentication", + "gov", + "joyful", + "login-gov", + "procurement", + "solicitation", + "tts", + "usability" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/18f-capacity-planning", + "repositoryURL": "https://github.com/18F/tts-buy-document-authentication-services", "laborHours": 0, "organization": "18F" }, { - "name": "cg-cert-check", - "description": "Notify a slack channel when certificates in bosh manifests or used by ELBs are about to expire.", + "name": "federalist-beta-feedback-template", + "description": "Converting a feedback site into a Federalist template", "permissions": { "licenses": null, "usageType": "openSource", @@ -26090,13 +30105,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-cert-check", + "repositoryURL": "https://github.com/18F/federalist-beta-feedback-template", "laborHours": 0, "organization": "18F" }, { - "name": "acq-presentations", - "description": "A place to capture TTS acquisition presentations: training, facilitation", + "name": "federalist-guide-template", + "description": "[DEPRECATED] Federalist template for a guide site. See https://github.com/18F/uswds-jekyll instead.", "permissions": { "licenses": null, "usageType": "openSource", @@ -26108,13 +30123,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acq-presentations", + "repositoryURL": "https://github.com/18F/federalist-guide-template", "laborHours": 0, "organization": "18F" }, { - "name": "insite-privacy", - "description": "Working repository for collaboration with GSA Privacy Office", + "name": "cloud-marketplace-prototype", + "description": "Prototype for the Cloud Marketplace.", "permissions": { "licenses": null, "usageType": "openSource", @@ -26126,15 +30141,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/insite-privacy", + "repositoryURL": "https://github.com/18F/cloud-marketplace-prototype", "laborHours": 0, "organization": "18F" }, { - "name": "swid-prototype", - "description": "swid-prototype", + "name": "AK-modular-experience", + "description": "Prototype for Alaska DHSS: View demo: https://federalist-proxy.app.cloud.gov/site/18f/ak-modular-experience/portal.html. ", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/cc0-1.0", + "name": "CC0-1.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -26144,13 +30164,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/swid-prototype", + "repositoryURL": "https://github.com/18F/AK-modular-experience", "laborHours": 0, "organization": "18F" }, { - "name": "angular-webapi-authentication-example", - "description": "AngularJS + ASP.NET Web API 2 - Basic HTTP Authentication Example", + "name": "fugacious-landing", + "description": "Fugacious/Toaster landing page", "permissions": { "licenses": null, "usageType": "openSource", @@ -26162,37 +30182,38 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/angular-webapi-authentication-example", + "repositoryURL": "https://github.com/18F/fugacious-landing", "laborHours": 0, "organization": "18F" }, { - "name": "State-TalentMAP", - "description": "A comprehensive research, bidding, and matching system to match Foreign Service employees with the right skills to available posts and positions.", + "name": "tts-buy-datagov-technical-support-services", + "description": "Solicitation documents for obtaining professional services to support Data.gov.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "foreign-service", - "foreign-service-bidding", - "hr", - "skills-marketplace", - "talentmap", - "talentmap-api", + "18f", + "data-gov", + "government", + "joyful", + "opp", + "pmo", + "procurement", "tts" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/State-TalentMAP", + "repositoryURL": "https://github.com/18F/tts-buy-datagov-technical-support-services", "laborHours": 0, "organization": "18F" }, { - "name": "acq-tech-presentations", - "description": "Static site of presentations for AcqStack tech topics", + "name": "useiti-redirect", + "description": "Redirect old US EITI site to revenuedata.doi.gov", "permissions": { "licenses": null, "usageType": "openSource", @@ -26204,56 +30225,57 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acq-tech-presentations", + "repositoryURL": "https://github.com/18F/useiti-redirect", "laborHours": 0, "organization": "18F" }, { - "name": "cg-customers", - "description": "The 'single source of truth' for high-level information about cloud.gov customers.", + "name": "tts-buy-crowdsourced-pentest", + "description": "Solicitation documents for the crowdsourced security and pentest procurement being undertaken by TTS.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "18f", + "acqstack", + "government", + "joyful", + "login-gov", + "office-of-acquisition", + "procurement", + "tts", + "usa" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-customers", + "repositoryURL": "https://github.com/18F/tts-buy-crowdsourced-pentest", "laborHours": 0, "organization": "18F" }, { - "name": "tts-buy-sites-challenge", - "description": "Solicitation documents related to the purchase of hosting services for Sites.USA.gov and Challenge.gov.", + "name": "cf-sample-app-spring", + "description": "Introduction to Cloud Foundry app deployment and management concepts.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "challenge-gov", - "fedramp", - "government", - "gsa", - "hosting", - "opp", - "sites-usa-gov", - "tts" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-buy-sites-challenge", + "repositoryURL": "https://github.com/18F/cf-sample-app-spring", "laborHours": 0, "organization": "18F" }, { - "name": "django-email-pal", - "description": "Easy HTML and plaintext email sending for Django.", + "name": "federalist-garden-build-py", + "description": "We used this repository to test out a new version of the Federalist build container", "permissions": { "licenses": null, "usageType": "openSource", @@ -26265,49 +30287,60 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-email-pal", + "repositoryURL": "https://github.com/18F/federalist-garden-build-py", "laborHours": 0, "organization": "18F" }, { - "name": "Ops-GAS-Public", - "description": "A collection of Google Apps Scripts used for 18F operations", + "name": "tts-buy-cloud-marketplace-dev-team", + "description": "Solicitation documents for obtaining professional services from a development team to support the cloud marketplace.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "18f", + "acqstack", + "cloud-marketplace", + "dev-team", + "development-team", + "government", + "joystick", + "office-of-acquisition", + "procurement", + "software-development", + "tts", + "usa" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/Ops-GAS-Public", + "repositoryURL": "https://github.com/18F/tts-buy-cloud-marketplace-dev-team", "laborHours": 0, "organization": "18F" }, { - "name": "FFD_landuse", - "description": "Research and recommendations to address the various, cross-government, procedures that affect outdoors guides and outfitters.", + "name": "cg-deploy-powerdns", + "description": "cloud.gov BOSH deployment for PowerDNS", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "experimental" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/FFD_landuse", + "repositoryURL": "https://github.com/18F/cg-deploy-powerdns", "laborHours": 0, "organization": "18F" }, { - "name": "opm-faces", - "description": "OPM FACES Discovery engagement", + "name": "tsp-uswds", + "description": "Thrift Savings Plan (TSP)", "permissions": { "licenses": null, "usageType": "openSource", @@ -26319,56 +30352,70 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/opm-faces", + "repositoryURL": "https://github.com/18F/tsp-uswds", "laborHours": 0, "organization": "18F" }, { - "name": "tis-discovery", - "description": "Project materials for the Team Integration System discovery project", + "name": "tts-buy-identity-proofing", + "description": "Market research documents created by TTS related to identity proofing services.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "18f", + "acqstack", + "government", + "identity-provider", + "joyful", + "login-gov", + "office-of-acquisition", + "procurement", + "tts", + "usa" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tis-discovery", + "repositoryURL": "https://github.com/18F/tts-buy-identity-proofing", "laborHours": 0, "organization": "18F" }, { - "name": "tts-buy-cloudgov-vulnerability-scanner", - "description": "Solicitation and acquisition documents created for the cloud.gov Vulnerability Scanner procurement that can be reused by other government agencies and organizations.", + "name": "tts-buy-searchgov-security-layer", + "description": "Solicitation documents related to the Search.gov software security layer and technical support services buy.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "cloud", + "18f", + "acqstack", + "elasticsearch", "government", "gsa", - "infrastructure", - "open-government", - "scanner", + "joyful", + "office-of-acquisition", + "opp", + "procurement", + "search-gov", + "security", "tts", - "vulnerability" + "usa" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-buy-cloudgov-vulnerability-scanner", + "repositoryURL": "https://github.com/18F/tts-buy-searchgov-security-layer", "laborHours": 0, "organization": "18F" }, { - "name": "identity-devops-private.example", - "description": "Example configuration data for https://github.com/18F/identity-devops", + "name": "omb-pdf", + "description": "Experimenting with pdfminer to import PDFs into the OMB Policy Library (DEPRECATED)", "permissions": { "licenses": null, "usageType": "openSource", @@ -26380,49 +30427,52 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-devops-private.example", + "repositoryURL": "https://github.com/18F/omb-pdf", "laborHours": 0, "organization": "18F" }, { - "name": "identity-ux", - "description": "User flow tool", + "name": "cms-hitech-apd", + "description": "Centers for Medicare and Medicaid Services (CMS) HITECH funding request app", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18f-acquisitions" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-ux", + "repositoryURL": "https://github.com/18F/cms-hitech-apd", "laborHours": 0, "organization": "18F" }, { - "name": "django-admin-interface", - "description": "django-admin-interface is a customizable responsive admin interface, based on a modern flat theme, it lets you customize the admin title, logo and colors by the admin itself.", + "name": "hubot-scripts-us-federal-holidays-reminder", + "description": "Post reminders about upcoming holidays", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "charlie", + "hubot", + "hubot-script", + "hubot-scripts" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/django-admin-interface", + "repositoryURL": "https://github.com/18F/hubot-scripts-us-federal-holidays-reminder", "laborHours": 0, "organization": "18F" }, { - "name": "e-qip-prototype-info-test", - "description": "e-qip-prototype-info-test", + "name": "eligibility-rules-service", + "description": "Researching an eligibility rules service - project documentation and task management", "permissions": { "licenses": null, "usageType": "openSource", @@ -26434,36 +30484,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/e-qip-prototype-info-test", + "repositoryURL": "https://github.com/18F/eligibility-rules-service", "laborHours": 0, "organization": "18F" }, { - "name": "State-TalentMAP-API", - "description": "API layer for https://github.com/18F/State-TalentMAP", + "name": "federal-grant-reporting", + "description": "Issue tracking for #10x-grant-reporting.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "foreign-service", - "hr", - "skills-marketplace", - "talentmap", - "talentmap-api", - "tts" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/State-TalentMAP-API", + "repositoryURL": "https://github.com/18F/federal-grant-reporting", "laborHours": 0, "organization": "18F" }, { - "name": "tts-bug-bounty-dashboard", - "description": "A prototype dashboard for the TTS bug bounty program.", + "name": "sheet2docs", + "description": "Convert a CSV of form responses into individual narrative documents.", "permissions": { "licenses": null, "usageType": "openSource", @@ -26475,15 +30520,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-bug-bounty-dashboard", + "repositoryURL": "https://github.com/18F/sheet2docs", "laborHours": 0, "organization": "18F" }, { - "name": "analytics-restarter", - "description": "Triggers nightly builds for the apps that makeup the analytics.usa.gov system", + "name": "cg-spring-music-demo", + "description": "A sample application for using database services on Cloud Foundry with Spring Framework.", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -26493,54 +30543,52 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/analytics-restarter", + "repositoryURL": "https://github.com/18F/cg-spring-music-demo", "laborHours": 0, "organization": "18F" }, { - "name": "bpa-fs-xmas-trees", - "description": "bpa-fs-xmas-trees", + "name": "alaska-child-welfare", + "description": "Collaboration between 18F Acquisitions and Alaska DHSS’s Office of Children's Services.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "agile", - "agile-bpa", - "forest-service", - "government", - "land-permitting", - "permitting" + "acqstack", + "alaska", + "children", + "welfare" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/bpa-fs-xmas-trees", + "repositoryURL": "https://github.com/18F/alaska-child-welfare", "laborHours": 0, "organization": "18F" }, { - "name": "identity-openidconnect-aspnet", - "description": "An OpenID Connect client for ASP.NET MVC", + "name": "GSA-SaaS-Payroll-RFQ-BPA", + "description": "Draft solicitation for SaaS Payroll BPA", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-openidconnect-aspnet", + "repositoryURL": "https://github.com/18F/GSA-SaaS-Payroll-RFQ-BPA", "laborHours": 0, "organization": "18F" }, { - "name": "800-63-3", - "description": "Home to public development of draft Special Publication 800-63-3: Digital Authentication Guidelines", + "name": "federalist-modular-template", + "description": "Experimentation and Prototyping on a new Federalist site", "permissions": { "licenses": null, "usageType": "openSource", @@ -26552,13 +30600,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/800-63-3", + "repositoryURL": "https://github.com/18F/federalist-modular-template", "laborHours": 0, "organization": "18F" }, { - "name": "acq-code-review-demo", - "description": "acq-code-review-demo", + "name": "markdown-editor", + "description": "Live (Github-flavored) Markdown Editor", "permissions": { "licenses": null, "usageType": "openSource", @@ -26570,13 +30618,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/acq-code-review-demo", + "repositoryURL": "https://github.com/18F/markdown-editor", "laborHours": 0, "organization": "18F" }, { - "name": "DataChallengesReport", - "description": "Results of a 2016 study investigated data challenges across the federal government.", + "name": "discovery", + "description": "Discovery is a market research tool for GSA procurement vehicles. ", "permissions": { "licenses": null, "usageType": "openSource", @@ -26588,13 +30636,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/DataChallengesReport", + "repositoryURL": "https://github.com/18F/discovery", "laborHours": 0, "organization": "18F" }, { - "name": "GDVP", - "description": "Generic Data Validator Platform", + "name": "crime-data-annotations-prototype", + "description": "A prototype of how we might allow the FBI to maintain a UCR annotations dataset", "permissions": { "licenses": null, "usageType": "openSource", @@ -26606,13 +30654,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/GDVP", + "repositoryURL": "https://github.com/18F/crime-data-annotations-prototype", "laborHours": 0, "organization": "18F" }, { - "name": "d3", - "description": "Bring data to life with SVG, Canvas and HTML. :bar_chart::chart_with_upwards_trend::tada:", + "name": "pulse-labs", + "description": "A prototype of alternative sections for pulse.cio.gov ", "permissions": { "licenses": null, "usageType": "openSource", @@ -26624,20 +30672,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/d3", + "repositoryURL": "https://github.com/18F/pulse-labs", "laborHours": 0, "organization": "18F" }, { - "name": "pclob", - "description": "The Privacy and Civil Liberties Oversight Board (PCLOB) website.", + "name": "developer-hubs", + "description": "developer-hubs", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/mit", - "name": "MIT" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -26647,13 +30690,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/pclob", + "repositoryURL": "https://github.com/18F/developer-hubs", "laborHours": 0, "organization": "18F" }, { - "name": "an_introduction_to_python", - "description": "An introduction to Python - https://www.digitalgov.gov/event/online-intro-to-python/", + "name": "omb-eregs-static-prototypes", + "description": "Static prototypes for OMB-eregs", "permissions": { "licenses": null, "usageType": "openSource", @@ -26665,31 +30708,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/an_introduction_to_python", + "repositoryURL": "https://github.com/18F/omb-eregs-static-prototypes", "laborHours": 0, "organization": "18F" }, { - "name": "dol-whisard", - "description": "[WIP] Wage and Hour Investigative Support and Reporting Database (WHISARD) MVP", + "name": "identity-oidc-expressjs", + "description": "An example Login.gov client application which authenticates users via OpenID Connect (OIDC). Built with Node.js, Express.js, and Passport.js.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "expressjs", + "login-gov", + "nodejs", + "oidc", + "oidc-client", + "passportjs" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dol-whisard", + "repositoryURL": "https://github.com/18F/identity-oidc-expressjs", "laborHours": 0, "organization": "18F" }, { - "name": "logsearch-boshrelease", - "description": "A BOSH-scalable ELK release", + "name": "cg-windows-stemcell-builder", + "description": "cg-windows-stemcell-builder", "permissions": { "licenses": null, "usageType": "openSource", @@ -26701,13 +30749,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/logsearch-boshrelease", + "repositoryURL": "https://github.com/18F/cg-windows-stemcell-builder", "laborHours": 0, "organization": "18F" }, { - "name": "nsf", - "description": "Repo for the NSF Site Redesign & Content Discovery project", + "name": "cg-deploy-elasticache-broker", + "description": "cg-deploy-elasticache-broker", "permissions": { "licenses": null, "usageType": "openSource", @@ -26719,13 +30767,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/nsf", + "repositoryURL": "https://github.com/18F/cg-deploy-elasticache-broker", "laborHours": 0, "organization": "18F" }, { - "name": "dig-a", - "description": "Self-executable DNS lookup command just for A records", + "name": "github-pr-file-header", + "description": "JS console script/bookmarklet to add a header to Github pull request changes page showing the filename of the current file", "permissions": { "licenses": null, "usageType": "openSource", @@ -26737,15 +30785,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dig-a", + "repositoryURL": "https://github.com/18F/github-pr-file-header", "laborHours": 0, "organization": "18F" }, { - "name": "dig-srv", - "description": "Self-executable DNS lookup command just for SRV records", + "name": "pdns-release", + "description": "BOSH Release of the PowerDNS DNS Server", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/gpl-2.0", + "name": "GPL-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -26755,13 +30808,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dig-srv", + "repositoryURL": "https://github.com/18F/pdns-release", "laborHours": 0, "organization": "18F" }, { - "name": "redis-sentinel-proxy", - "description": "redis-sentinel-proxy", + "name": "docker-compose-django-react", + "description": "A strawman set up for using both Django and React in a new app", "permissions": { "licenses": null, "usageType": "openSource", @@ -26773,13 +30826,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/redis-sentinel-proxy", + "repositoryURL": "https://github.com/18F/docker-compose-django-react", "laborHours": 0, "organization": "18F" }, { - "name": "citadel", - "description": "Chef cookbook to help store secrets in S3 in a secure fashion", + "name": "cms-hitech-sandbox", + "description": "cms-hitech-sandbox", "permissions": { "licenses": null, "usageType": "openSource", @@ -26791,13 +30844,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/citadel", + "repositoryURL": "https://github.com/18F/cms-hitech-sandbox", "laborHours": 0, "organization": "18F" }, { - "name": "kubernetes-broker-exporter", - "description": "kubernetes-broker-exporter", + "name": "crime-data-api", + "description": "RESTful API service providing Uniform Crime Reporting (UCR) data for the United States", "permissions": { "licenses": null, "usageType": "openSource", @@ -26809,13 +30862,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/kubernetes-broker-exporter", + "repositoryURL": "https://github.com/18F/crime-data-api", "laborHours": 0, "organization": "18F" }, { - "name": "dotgov-support", - "description": "Repository for dotgov transition from OGP to TTS", + "name": "cf-ex-staticfile", + "description": "Example CloudFoundry/cloud.gov staticfile site", "permissions": { "licenses": null, "usageType": "openSource", @@ -26827,36 +30880,42 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/dotgov-support", + "repositoryURL": "https://github.com/18F/cf-ex-staticfile", "laborHours": 0, "organization": "18F" }, { - "name": "citadel-build", - "description": "Built version of https://github.com/18F/citadel.git using `rake chef:build`", + "name": "tts-buy-challengegov-ideation", + "description": "Market research documents related to the Challenge.gov Ideation Platform.", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "18f", + "acqstack", + "challenge-gov", + "fedramp", + "government", + "ideation", + "joyful", + "office-of-acquisition", + "opp", + "procurement", + "tts", + "usa" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/citadel-build", + "repositoryURL": "https://github.com/18F/tts-buy-challengegov-ideation", "laborHours": 0, "organization": "18F" }, { - "name": "redux-textarea-debounce", - "description": "textarea component whose onchange is debounced, perfect for use in redux apps", + "name": "fs-fork-uswds", + "description": "The Forest Service fork of U.S. Web Design System is a design system for building fast, accessible, mobile-friendly Forest Service websites.", "permissions": { "licenses": null, "usageType": "openSource", @@ -26868,13 +30927,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/redux-textarea-debounce", + "repositoryURL": "https://github.com/18F/fs-fork-uswds", "laborHours": 0, "organization": "18F" }, { - "name": "cloud-foundry-cli", - "description": "Image for running the Cloud Foundry CLI", + "name": "fs-fork-uswds-site", + "description": "The Forest Service Fork of the U.S. Web Design System website and documentation", "permissions": { "licenses": null, "usageType": "openSource", @@ -26886,13 +30945,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cloud-foundry-cli", + "repositoryURL": "https://github.com/18F/fs-fork-uswds-site", "laborHours": 0, "organization": "18F" }, { - "name": "docker-boshrelease", - "description": "Docker BOSH Release", + "name": "pif-website", + "description": "PIF website, jekyll flavored", "permissions": { "licenses": null, "usageType": "openSource", @@ -26904,20 +30963,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/docker-boshrelease", + "repositoryURL": "https://github.com/18F/pif-website", "laborHours": 0, "organization": "18F" }, { - "name": "cloud-marketplaceholder", - "description": "A sandbox", + "name": "crime-data-frontend", + "description": "Archived copy of visualization and download tools for exploring the FBI’s Uniform Crime Reporting (UCR) data", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -26927,31 +30981,37 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cloud-marketplaceholder", + "repositoryURL": "https://github.com/18F/crime-data-frontend", "laborHours": 0, "organization": "18F" }, { - "name": "uswds-simple-sass", - "description": "Simple example project that uses the SASS files of the U.S. Web Design Standards.", + "name": "tts-buy-searchgov-development", + "description": "tts-buy-searchgov-development", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "acqstack", + "acquisition", + "government", + "joyful", + "office-of-acquisition", + "procurement", + "tts" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/uswds-simple-sass", + "repositoryURL": "https://github.com/18F/tts-buy-searchgov-development", "laborHours": 0, "organization": "18F" }, { - "name": "gsa-it-standards-search", - "description": "Search GSA IT standards for approved software", + "name": "fec-proxy", + "description": "Code has moved to https://github.com/fecgov/fec-proxy", "permissions": { "licenses": null, "usageType": "openSource", @@ -26963,13 +31023,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/gsa-it-standards-search", + "repositoryURL": "https://github.com/18F/fec-proxy", "laborHours": 0, "organization": "18F" }, { - "name": "micropurchase-archive", - "description": "A static copy of micropurchase.18f.gov", + "name": "fec-testing", + "description": "This has moved to https://github.com/fecgov/fec-testing", "permissions": { "licenses": null, "usageType": "openSource", @@ -26981,13 +31041,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/micropurchase-archive", + "repositoryURL": "https://github.com/18F/fec-testing", "laborHours": 0, "organization": "18F" }, { - "name": "elastalert-boshrelease", - "description": "elastalert-boshrelease", + "name": "fec-epics", + "description": "Moved to: https://github.com/fecgov/fec-epics", "permissions": { "licenses": null, "usageType": "openSource", @@ -26999,13 +31059,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/elastalert-boshrelease", + "repositoryURL": "https://github.com/18F/fec-epics", "laborHours": 0, "organization": "18F" }, { - "name": "trustymail", - "description": "Scan domains and return data based on trustworthy email best practices", + "name": "its70-fs-epermit-scale-up", + "description": "Solicitation for Schedule 70 vendors to support the U.S. Forest Service ePermit app", "permissions": { "licenses": null, "usageType": "openSource", @@ -27017,15 +31077,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/trustymail", + "repositoryURL": "https://github.com/18F/its70-fs-epermit-scale-up", "laborHours": 0, "organization": "18F" }, { - "name": "boise", - "description": "working to reduce the burden and improve the effectiveness of software security compliance processes", + "name": "prometheus-boshrelease", + "description": "Prometheus BOSH Release", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -27035,13 +31100,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/boise", + "repositoryURL": "https://github.com/18F/prometheus-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "domain-scan-orchestration", - "description": "domain-scan-orchestration", + "name": "ads-bpa-redirect", + "description": "HTTP meta redirect for ads.18f.gov", "permissions": { "licenses": null, "usageType": "openSource", @@ -27053,40 +31118,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/domain-scan-orchestration", + "repositoryURL": "https://github.com/18F/ads-bpa-redirect", "laborHours": 0, "organization": "18F" }, { - "name": "tts-buy-code-review", - "description": "Solicitation documents for the code review procurement being undertaken by TTS.", + "name": "identity-oidc-gin", + "description": "An example Login.gov client application which authenticates users via OpenID Connect (OIDC). Written in Go. Uses the Gin web framework.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18f", - "approval-tracking", - "c2-communicart", - "code-review", - "government", - "joyful", - "procurement", - "ruby", - "ruby-on-rails", - "tts" + "gin-gonic", + "go", + "goth", + "login-gov", + "oidc", + "oidc-client" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-buy-code-review", + "repositoryURL": "https://github.com/18F/identity-oidc-gin", "laborHours": 0, "organization": "18F" }, { - "name": "uswds-crawler", - "description": "Tools for extracting information about how sites use the U.S. Web Design Standards.", + "name": "fec-transition", + "description": "Moved to: https://github.com/fecgov/fec-transition", "permissions": { "licenses": null, "usageType": "openSource", @@ -27098,31 +31159,41 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/uswds-crawler", + "repositoryURL": "https://github.com/18F/fec-transition", "laborHours": 0, "organization": "18F" }, { - "name": "cg-buildpack-notify", - "description": "Proactively encouraging cloud.gov customers to restage their apps so they can benefit from buildpack updates.", + "name": "tts-buy-ttswide-3pao", + "description": "tts-buy-ttswide-3pao", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "18f", + "3pao", + "acqstack", + "fedramp", + "government", + "joyful", + "office-of-acquisition", + "opp", + "procurement", + "tts", + "usa" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-buildpack-notify", + "repositoryURL": "https://github.com/18F/tts-buy-ttswide-3pao", "laborHours": 0, "organization": "18F" }, { - "name": "cf-ex-phpmyadmin", - "description": "CloudFoundry PHP example application: phpmyadmin", + "name": "FEC", + "description": "Moved to: https://github.com/fecgov/FEC", "permissions": { "licenses": null, "usageType": "openSource", @@ -27134,13 +31205,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-ex-phpmyadmin", + "repositoryURL": "https://github.com/18F/FEC", "laborHours": 0, "organization": "18F" }, { - "name": "michigan-benefits", - "description": "Digital Assister for Michigan", + "name": "cg-bosh-dependencies", + "description": "cg-bosh-dependencies", "permissions": { "licenses": null, "usageType": "openSource", @@ -27152,20 +31223,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/michigan-benefits", + "repositoryURL": "https://github.com/18F/cg-bosh-dependencies", "laborHours": 0, "organization": "18F" }, { - "name": "cloud-marketplaceholder-placeholder", - "description": "cloud-marketplaceholder-placeholder", + "name": "tts-buy-IaaS-2018", + "description": "tts-buy-IaaS-2018", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -27175,31 +31241,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cloud-marketplaceholder-placeholder", + "repositoryURL": "https://github.com/18F/tts-buy-IaaS-2018", "laborHours": 0, "organization": "18F" }, { - "name": "connect.gov", - "description": "Static site to disambiguate login.gov and ConneCT.ct.gov", + "name": "fec-pattern-library", + "description": "MOVED TO: https://github.com/fecgov/fec-pattern-library", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/connect.gov", + "repositoryURL": "https://github.com/18F/fec-pattern-library", "laborHours": 0, "organization": "18F" }, { - "name": "project-guide", - "description": "A guide for managing projects at 18F", + "name": "fec-eregs", + "description": "MOVED TO: https://github.com/fecgov/fec-eregs", "permissions": { "licenses": null, "usageType": "openSource", @@ -27211,13 +31277,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/project-guide", + "repositoryURL": "https://github.com/18F/fec-eregs", "laborHours": 0, "organization": "18F" }, { - "name": "uswds-data", - "description": "A data visualization guide for the U.S. Web Design Standards.", + "name": "cg-report-federalist-s3", + "description": "Report on CloudTrail events for Federalist S3 bucket for their ATO", "permissions": { "licenses": null, "usageType": "openSource", @@ -27229,13 +31295,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/uswds-data", + "repositoryURL": "https://github.com/18F/cg-report-federalist-s3", "laborHours": 0, "organization": "18F" }, { - "name": "fs-human-centered-design", - "description": "fs-human-centered-design", + "name": "10x-post-product-development", + "description": "project board and repo for 10x phase one project on post product development research", "permissions": { "licenses": null, "usageType": "openSource", @@ -27247,13 +31313,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fs-human-centered-design", + "repositoryURL": "https://github.com/18F/10x-post-product-development", "laborHours": 0, "organization": "18F" }, { - "name": "application_ruby", - "description": "Development repository for Opscode Cookbook application_ruby", + "name": "openFEC", + "description": "MOVED TO:https://github.com/fecgov/openFEC", "permissions": { "licenses": null, "usageType": "openSource", @@ -27265,103 +31331,108 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/application_ruby", + "repositoryURL": "https://github.com/18F/openFEC", "laborHours": 0, "organization": "18F" }, { - "name": "identity-oidc-java-spring-boot", - "description": "identity-oidc-java-spring-boot", + "name": "fec-cms", + "description": "MOVED TO: https://github.com/fecgov/fec-cms", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-oidc-java-spring-boot", + "repositoryURL": "https://github.com/18F/fec-cms", "laborHours": 0, "organization": "18F" }, { - "name": "identity-oidc-java-spring-boot-xml", - "description": "identity-oidc-java-spring-boot-xml", + "name": "fec-infrastructure", + "description": "MOVED TO: https://github.com/fecgov/fec-infrastructure", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-oidc-java-spring-boot-xml", + "repositoryURL": "https://github.com/18F/fec-infrastructure", "laborHours": 0, "organization": "18F" }, { - "name": "identity-oidc-java-spring-security", - "description": "identity-oidc-java-spring-security", + "name": "tock-gas-ts", + "description": "TypeScript code and example spreadsheets to facilitate the integration of Tock data with Google Spreadsheets via Google Apps Script (GAS).", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-oidc-java-spring-security", + "repositoryURL": "https://github.com/18F/tock-gas-ts", "laborHours": 0, "organization": "18F" }, { - "name": "identity-oidc-python-django", - "description": "identity-oidc-python-django", + "name": "circle-fork-env-var-config-scan", + "description": "circle-fork-env-var-config-scan", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-oidc-python-django", + "repositoryURL": "https://github.com/18F/circle-fork-env-var-config-scan", "laborHours": 0, "organization": "18F" }, { - "name": "identity-oidc-nodejs-express", - "description": "identity-oidc-nodejs-express", + "name": "terraform-provider-powerdns", + "description": "Terraform PowerDNS provider", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mpl-2.0", + "name": "MPL-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-oidc-nodejs-express", + "repositoryURL": "https://github.com/18F/terraform-provider-powerdns", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-volume-services", - "description": "cg-deploy-volume-services", + "name": "10x-translation-service", + "description": "10x project to investigate a government-wide open source translation service.", "permissions": { "licenses": null, "usageType": "openSource", @@ -27373,13 +31444,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-volume-services", + "repositoryURL": "https://github.com/18F/10x-translation-service", "laborHours": 0, "organization": "18F" }, { - "name": "cf-multi-cups-plugin", - "description": "cloud foundry plugin", + "name": "cg-deploy-credhub", + "description": "cg-deploy-credhub", "permissions": { "licenses": null, "usageType": "openSource", @@ -27391,56 +31462,49 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-multi-cups-plugin", + "repositoryURL": "https://github.com/18F/cg-deploy-credhub", "laborHours": 0, "organization": "18F" }, { - "name": "identity-oidc-groovy", - "description": "identity-oidc-groovy", + "name": "cf-elk", + "description": "An implementation of an ELK stack in Cloud Foundry", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "login-gov" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-oidc-groovy", + "repositoryURL": "https://github.com/18F/cf-elk", "laborHours": 0, "organization": "18F" }, { - "name": "tts-internal-buy-starter-repo", - "description": "A starter repo that every TTS internal buy can clone to get started.", + "name": "domain-gather", + "description": "Inventorying and discovery of hostnames of various kinds.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18f", - "acqstack", - "government", - "joyful", - "office-of-acquisition", - "procurement", - "tts", - "usa" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-internal-buy-starter-repo", + "repositoryURL": "https://github.com/18F/domain-gather", "laborHours": 0, "organization": "18F" }, { - "name": "identity-hostdata", - "description": "Ruby gem to help read per-host configs", + "name": "legacy-edu-pilot", + "description": "10X project to pilot a process to educate stakeholders about alternatives to legacy software development practices.", "permissions": { "licenses": null, "usageType": "openSource", @@ -27452,13 +31516,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/identity-hostdata", + "repositoryURL": "https://github.com/18F/legacy-edu-pilot", "laborHours": 0, "organization": "18F" }, { - "name": "cg-client-event-tracker", - "description": "Rails based application for tracking and querying events", + "name": "gsa-adv-cart-analysis", + "description": "gsa-adv-cart-analysis", "permissions": { "licenses": null, "usageType": "openSource", @@ -27470,13 +31534,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-client-event-tracker", + "repositoryURL": "https://github.com/18F/gsa-adv-cart-analysis", "laborHours": 0, "organization": "18F" }, { - "name": "disa-eagency", - "description": "disa-eagency", + "name": "identity-oidc-phoenix", + "description": "An example login.gov OpenID Connect client in Elixir / Phoenix", "permissions": { "licenses": null, "usageType": "openSource", @@ -27488,15 +31552,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/disa-eagency", + "repositoryURL": "https://github.com/18F/identity-oidc-phoenix", "laborHours": 0, "organization": "18F" }, { - "name": "cg-workshop", - "description": "Hands-on workshop with cloud.gov", + "name": "postfix-boshrelease", + "description": "Release BOSH for Postfix as a simple SMTP relay", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -27506,13 +31575,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-workshop", + "repositoryURL": "https://github.com/18F/postfix-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "open-foia-redirect", - "description": "Simple static redirect explaining the open.foia.gov sunset", + "name": "cg-demos", + "description": "cloud.gov demonstrations", "permissions": { "licenses": null, "usageType": "openSource", @@ -27524,13 +31593,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/open-foia-redirect", + "repositoryURL": "https://github.com/18F/cg-demos", "laborHours": 0, "organization": "18F" }, { - "name": "sql_insert_writer", - "description": "Helps make long SQL INSERT statements readably", + "name": "cg-deploy-postfix", + "description": "cg-deploy-postfix", "permissions": { "licenses": null, "usageType": "openSource", @@ -27542,20 +31611,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/sql_insert_writer", + "repositoryURL": "https://github.com/18F/cg-deploy-postfix", "laborHours": 0, "organization": "18F" }, { - "name": "oauth2-proxy-boshrelease", - "description": "oauth2-proxy-boshrelease", + "name": "afrs-pa", + "description": "USAF Recruiting Service Path Analysis", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/apache-2.0", - "name": "Apache-2.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -27565,13 +31629,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/oauth2-proxy-boshrelease", + "repositoryURL": "https://github.com/18F/afrs-pa", "laborHours": 0, "organization": "18F" }, { - "name": "performance.gov", - "description": "performance.gov", + "name": "pubmed-prototypes", + "description": "pubmed-prototypes", "permissions": { "licenses": null, "usageType": "openSource", @@ -27583,31 +31647,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/performance.gov", + "repositoryURL": "https://github.com/18F/pubmed-prototypes", "laborHours": 0, "organization": "18F" }, { - "name": "cg-secret-rotation", - "description": "cg-secret-rotation", + "name": "identity-pki", + "description": "Support PIV/CAC with identity-idp", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18F" + "login-gov" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-secret-rotation", + "repositoryURL": "https://github.com/18F/identity-pki", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-report-template", - "description": "A Federalist template to display a report or memo", + "name": "spelunker", + "description": "nooks and crannies", "permissions": { "licenses": null, "usageType": "openSource", @@ -27619,13 +31683,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-report-template", + "repositoryURL": "https://github.com/18F/spelunker", "laborHours": 0, "organization": "18F" }, { - "name": "data-federation-report", - "description": "Findings from data federation research project", + "name": "django-data-ingest", + "description": "Library to begin apps that accept and validate data files", "permissions": { "licenses": null, "usageType": "openSource", @@ -27637,15 +31701,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/data-federation-report", + "repositoryURL": "https://github.com/18F/django-data-ingest", "laborHours": 0, "organization": "18F" }, { - "name": "datagen", - "description": "Generate dummy data with a simple schema format", + "name": "chef-filebeat", + "description": "Chef Cookbook to Manage Elastic Filebeat https://supermarket.chef.io/cookbooks/filebeat", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -27655,13 +31724,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/datagen", + "repositoryURL": "https://github.com/18F/chef-filebeat", "laborHours": 0, "organization": "18F" }, { - "name": "tts-buy-document-authentication-services", - "description": "Solicitation documents related to document authentication services.", + "name": "pubmed-tests", + "description": "pubmed-tests", "permissions": { "licenses": null, "usageType": "openSource", @@ -27673,13 +31742,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-buy-document-authentication-services", + "repositoryURL": "https://github.com/18F/pubmed-tests", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-beta-feedback-template", - "description": "Converting a feedback site into a Federalist template", + "name": "identity-cookbooks", + "description": "Open source cookbooks used by the login.gov team", "permissions": { "licenses": null, "usageType": "openSource", @@ -27691,13 +31760,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-beta-feedback-template", + "repositoryURL": "https://github.com/18F/identity-cookbooks", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-guide-template", - "description": "WORK IN PROGRESS: Federalist template for a guide site", + "name": "usda-snap-pa", + "description": "USDA SNAP Path Analysis", "permissions": { "licenses": null, "usageType": "openSource", @@ -27709,13 +31778,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-guide-template", + "repositoryURL": "https://github.com/18F/usda-snap-pa", "laborHours": 0, "organization": "18F" }, { - "name": "cloud-marketplace-prototype", - "description": "Prototype for the Cloud Marketplace.", + "name": "credentials-rotator", + "description": "credentials-rotator", "permissions": { "licenses": null, "usageType": "openSource", @@ -27727,20 +31796,15 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cloud-marketplace-prototype", + "repositoryURL": "https://github.com/18F/credentials-rotator", "laborHours": 0, "organization": "18F" }, { - "name": "AK-modular-experience", - "description": "Prototype for Alaska DHSS: View demo: https://federalist-proxy.app.cloud.gov/site/18f/ak-modular-experience/portal.html. ", + "name": "cf-domain-broker-alb", + "description": "cf-domain-broker-alb", "permissions": { - "licenses": [ - { - "URL": "https://api.github.com/licenses/cc0-1.0", - "name": "CC0-1.0" - } - ], + "licenses": null, "usageType": "openSource", "exemptionText": null }, @@ -27750,15 +31814,20 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/AK-modular-experience", + "repositoryURL": "https://github.com/18F/cf-domain-broker-alb", "laborHours": 0, "organization": "18F" }, { - "name": "fugacious-landing", - "description": "Fugacious/Toaster landing page", + "name": "cf-domain-broker-alb-boshrelease", + "description": "A bosh release for 18F's CDN broker", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/mit", + "name": "MIT" + } + ], "usageType": "openSource", "exemptionText": null }, @@ -27768,38 +31837,31 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/fugacious-landing", + "repositoryURL": "https://github.com/18F/cf-domain-broker-alb-boshrelease", "laborHours": 0, "organization": "18F" }, { - "name": "tts-buy-datagov-technical-support-services", - "description": "Solicitation documents for obtaining professional services to support Data.gov.", + "name": "test-kitchen", + "description": "Test Kitchen is an integration tool for developing and testing infrastructure code and software on isolated target platforms.", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18f", - "data-gov", - "government", - "joyful", - "opp", - "pmo", - "procurement", - "tts" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-buy-datagov-technical-support-services", + "repositoryURL": "https://github.com/18F/test-kitchen", "laborHours": 0, "organization": "18F" }, { - "name": "useiti-redirect", - "description": "Redirect old US EITI site to revenuedata.doi.gov", + "name": "kitchen-provisioner-pre-install", + "description": "Subclasses of test-kitchen provisioners that support a pre_install_command config option", "permissions": { "licenses": null, "usageType": "openSource", @@ -27811,39 +31873,36 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/useiti-redirect", + "repositoryURL": "https://github.com/18F/kitchen-provisioner-pre-install", "laborHours": 0, "organization": "18F" }, { - "name": "tts-buy-crowdsourced-pentest", - "description": "Solicitation documents for the crowdsourced security and pentest procurement being undertaken by TTS.", + "name": "nfs-volume-release", + "description": "nfs-volume-release", "permissions": { - "licenses": null, + "licenses": [ + { + "URL": "https://api.github.com/licenses/apache-2.0", + "name": "Apache-2.0" + } + ], "usageType": "openSource", "exemptionText": null }, "tags": [ - "18f", - "acqstack", - "government", - "joyful", - "login-gov", - "office-of-acquisition", - "procurement", - "tts", - "usa" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-buy-crowdsourced-pentest", + "repositoryURL": "https://github.com/18F/nfs-volume-release", "laborHours": 0, "organization": "18F" }, { - "name": "cf-sample-app-spring", - "description": "Introduction to Cloud Foundry app deployment and management concepts.", + "name": "goodtables-gov", + "description": "Webservice to apply GoodTables validator", "permissions": { "licenses": null, "usageType": "openSource", @@ -27855,13 +31914,13 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cf-sample-app-spring", + "repositoryURL": "https://github.com/18F/goodtables-gov", "laborHours": 0, "organization": "18F" }, { - "name": "federalist-garden-build-py", - "description": "We used this repository to test out a new version of the Federalist build container", + "name": "usda-fns-ingest", + "description": "Accept datafiles for USDA's Food and Nutrition Service.", "permissions": { "licenses": null, "usageType": "openSource", @@ -27873,60 +31932,49 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/federalist-garden-build-py", + "repositoryURL": "https://github.com/18F/usda-fns-ingest", "laborHours": 0, "organization": "18F" }, { - "name": "tts-buy-cloud-marketplace-dev-team", - "description": "Solicitation documents for obtaining professional services from a development team to support the cloud marketplace.", + "name": "TTS-Dogfooding", + "description": "An analysis of how TTS projects are using their own sister services ('eating our own dogfood')", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18f", - "acqstack", - "cloud-marketplace", - "dev-team", - "development-team", - "government", - "joystick", - "office-of-acquisition", - "procurement", - "software-development", - "tts", - "usa" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-buy-cloud-marketplace-dev-team", + "repositoryURL": "https://github.com/18F/TTS-Dogfooding", "laborHours": 0, "organization": "18F" }, { - "name": "cg-deploy-powerdns", - "description": "cloud.gov BOSH deployment for PowerDNS", + "name": "tts-dogfood", + "description": "tts-dogfood", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "experimental" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/cg-deploy-powerdns", + "repositoryURL": "https://github.com/18F/tts-dogfood", "laborHours": 0, "organization": "18F" }, { - "name": "tsp-uswds", - "description": "Thrift Savings Plan (TSP)", + "name": "service-inventory-oce-pa", + "description": "Path analysis to understand the ways to present GSA's Office of Customer Experience's inventory of services", "permissions": { "licenses": null, "usageType": "openSource", @@ -27938,64 +31986,43 @@ "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tsp-uswds", + "repositoryURL": "https://github.com/18F/service-inventory-oce-pa", "laborHours": 0, "organization": "18F" }, { - "name": "tts-buy-identity-proofing", - "description": "Market research documents created by TTS related to identity proofing services.", + "name": "identity-terraform", + "description": "Terraform modules published by the Login.gov team", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18f", - "acqstack", - "government", - "identity-provider", - "joyful", - "login-gov", - "office-of-acquisition", - "procurement", - "tts", - "usa" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-buy-identity-proofing", + "repositoryURL": "https://github.com/18F/identity-terraform", "laborHours": 0, "organization": "18F" }, { - "name": "tts-buy-elastic-x-pack", - "description": "Market research documents created by TTS to gather more information on vendor capabilities.", + "name": "sql_graphviz-docker", + "description": "Docker image definition for wrapping up sql_graphviz", "permissions": { "licenses": null, "usageType": "openSource", "exemptionText": null }, "tags": [ - "18f", - "acqstack", - "elastic-x-pack", - "government", - "gsa", - "joyful", - "office-of-acquisition", - "opp", - "procurement", - "search-gov", - "security", - "tts", - "usa" + "18F" ], "contact": { "email": "18f@gsa.gov" }, - "repositoryURL": "https://github.com/18F/tts-buy-elastic-x-pack", + "repositoryURL": "https://github.com/18F/sql_graphviz-docker", "laborHours": 0, "organization": "18F" } diff --git a/data/fetched/NASA.json b/data/fetched/NASA.json index eecee76f..3deb4b73 100644 --- a/data/fetched/NASA.json +++ b/data/fetched/NASA.json @@ -7,32037 +7,32059 @@ "releases": [ { "_id": { - "$oid": "5a3a9b78da833f1e40fb606f" + "$oid": "5a3a9b78da833f1e40fb6072" }, - "name": "NetworKing: Space Communications and Navigation (SCaN) App", - "description": "The NetworKing Game is an educational, interactive 3D game in which the player develops a space communication network. As he builds his network infrastructure, client spacecraft are attracted to the network, generating income and allowing the player to build further. As the player expands his robust communication network, fortunate and unfortunate events occur. The game can be downloaded at: www.nasa.gov/multimedia/3d_resources/scan.html", - "tags": [ - "NASA", - "ARC", - "General Public", - "Design and Integration Tools" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This image compression software eliminates redundant and invisible image components using a discrete cosine transform (DCT). Each DCT coefficient is used to determine the perceived image quality and the bit rate of the image being compressed.", + "identifier": "ARC-12015-1", + "laborHours": 0, + "name": "Image-Adapted Visually Weighted Quantization Matrices for Digital Image Compression (DCTune)", "organization": "ARC", - "identifier": "ARC-16778-1", - "repositoryURL": "https://www.nasa.gov/multimedia/3d_resources/spacecomm.html", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-12015-1", + "tags": [ + "NASA", + "ARC", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6070" + "$oid": "5a3a9b78da833f1e40fb6071" }, - "name": "Sector 33 App", - "description": "Offering a single user interface, Sector 33 is an air traffic control simulator game for Apple and Droid mobile devices. 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The game can be downloaded at: http://www.nasa.gov/connect/apps.html", - "tags": [ - "NASA", - "ARC", - "General Public Release", - "Aeronautics" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "HiMAP solves static and dynamic problems by tightly coupling the Euler/Navier-Stokes flow solutions with modal/finite-element structural solutions using built-in moving grids.", + "identifier": "ARC-14504-1", + "laborHours": 0, + "name": "HiMAP: Portable 3-Level Super-Modular Parallel High-Fidelity Multidisciplinary Analysis Process", "organization": "ARC", - "identifier": "ARC-16853-1", - "repositoryURL": "https://www.nasa.gov/centers/ames/Sector33/iOS/", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6071" + "usageType": "governmentWideReuse" }, - "name": "HiMAP: Portable 3-Level Super-Modular Parallel High-Fidelity Multidisciplinary Analysis Process", - "description": "HiMAP solves static and dynamic problems by tightly coupling the Euler/Navier-Stokes flow solutions with modal/finite-element structural solutions using built-in moving grids.", + "repositoryURL": "https://software.nasa.gov/software/ARC-14504-1", "tags": [ "NASA", "ARC", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb606f" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The NetworKing Game is an educational, interactive 3D game in which the player develops a space communication network. As he builds his network infrastructure, client spacecraft are attracted to the network, generating income and allowing the player to build further. As the player expands his robust communication network, fortunate and unfortunate events occur. The game can be downloaded at: www.nasa.gov/multimedia/3d_resources/scan.html", + "identifier": "ARC-16778-1", + "laborHours": 0, + "name": "NetworKing: Space Communications and Navigation (SCaN) App", "organization": "ARC", - "identifier": "ARC-14504-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-14504-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://www.nasa.gov/multimedia/3d_resources/spacecomm.html", + "tags": [ + "NASA", + "ARC", + "General Public", + "Design and Integration Tools" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6072" + "$oid": "5a3a9b78da833f1e40fb6070" }, - "name": "Image-Adapted Visually Weighted Quantization Matrices for Digital Image Compression (DCTune)", - "description": "This image compression software eliminates redundant and invisible image components using a discrete cosine transform (DCT). 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The technology uses time-based queues at various locations along an aircraft's trajectory to model traffic. For arrivals, queue locations include the freeze horizon, metering fixes, and runways. For departures, queues are positioned at airport gates, runways, and metering fixes. Flight time uncertainty is modeled using probability distributions around queue arrival times.", - "tags": [ - "NASA", - "ARC", - "U.S. Government Purpose Release", - "Aeronautics" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "STASS simulates air traffic in the terminal area and ground traffic on the terminal surface. The technology uses time-based queues at various locations along an aircraft's trajectory to model traffic. For arrivals, queue locations include the freeze horizon, metering fixes, and runways. For departures, queues are positioned at airport gates, runways, and metering fixes. Flight time uncertainty is modeled using probability distributions around queue arrival times.", "identifier": "ARC-17079-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-17079-1", + "laborHours": 0, + "name": "Stochastic Terminal Area Scheduling Simulation (STASS)", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-17079-1", + "tags": [ + "NASA", + "ARC", + "U.S. Government Purpose Release", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6084" }, - "name": "Scheduling and Planning Interface for Exploration (SPIFe)", - "description": "The SPIFe interface allows plans to be generated under complex constraints and reduces the number of team members necessary to achieve mission goals. The technology, consisting of a set of plugins built using the Java Eclipse Rich Client Platform (RCP), complies with the standards of the Ensemble project. SPIFe software offers several novel controls and visualizations for task planning and a generalized application interface for communicating with planning engines.", - "tags": [ - "NASA", - "ARC", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The SPIFe interface allows plans to be generated under complex constraints and reduces the number of team members necessary to achieve mission goals. The technology, consisting of a set of plugins built using the Java Eclipse Rich Client Platform (RCP), complies with the standards of the Ensemble project. SPIFe software offers several novel controls and visualizations for task planning and a generalized application interface for communicating with planning engines.", "identifier": "ARC-15795-1A", - "repositoryURL": "https://github.com/nasa/OpenSPIFe/wiki", + "laborHours": 0, + "name": "Scheduling and Planning Interface for Exploration (SPIFe)", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/OpenSPIFe/blob/master/LICENSE.md", "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://github.com/nasa/OpenSPIFe/wiki", + "tags": [ + "NASA", + "ARC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6085" }, - "name": "Automated Triangle Geometry Processing for Surface Modeling and Cartesian Grid Generation (Cart3D)", - "description": "Cart3D is a high-fidelity inviscid analysis package for conceptual and preliminary aerodynamic design. It allows users to perform automated computational fluid dynamics (CFD) analysis on complex geometry. The package includes utilities for geometry import, surface modeling and intersection, mesh generation, and flow simulation. Cart3D is highly automated so that geometry acquisition and mesh generation can usually be performed within a matter of minutes on most modern UNIX workstations or PCs.", - "tags": [ - "NASA", - "ARC", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Cart3D is a high-fidelity inviscid analysis package for conceptual and preliminary aerodynamic design. It allows users to perform automated computational fluid dynamics (CFD) analysis on complex geometry. The package includes utilities for geometry import, surface modeling and intersection, mesh generation, and flow simulation. Cart3D is highly automated so that geometry acquisition and mesh generation can usually be performed within a matter of minutes on most modern UNIX workstations or PCs.", "identifier": "ARC-14275-1", - "repositoryURL": "https://www.nas.nasa.gov/publications/software/docs/cart3d/index.html", + "laborHours": 0, + "name": "Automated Triangle Geometry Processing for Surface Modeling and Cartesian Grid Generation (Cart3D)", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://www.nas.nasa.gov/publications/software/docs/cart3d/index.html", + "tags": [ + "NASA", + "ARC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6086" }, - "name": "SUPKEM", - "description": "SUMKEM is fully implicit, parabolic, partial-differential equation solver that can be used for the integration of unsteady 3D turbulence kinetic energy and dissipation-rate equations. The technology enables any laminar computational fluid dynamics (CFD) solver to compute a given unsteady turbulent flow of interest.", - "tags": [ - "NASA", - "ARC", - "U.S. Release Only", - "Aeronautics" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "SUMKEM is fully implicit, parabolic, partial-differential equation solver that can be used for the integration of unsteady 3D turbulence kinetic energy and dissipation-rate equations. The technology enables any laminar computational fluid dynamics (CFD) solver to compute a given unsteady turbulent flow of interest.", "identifier": "ARC-16260-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-16260-1", + "laborHours": 0, + "name": "SUPKEM", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-16260-1", + "tags": [ + "NASA", + "ARC", + "U.S. Release Only", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6087" }, - "name": "Apparatus for Evaluating Software Decision Logic (ADEPT)", - "description": "The ADEPT design tool integrates a graphical user interface with an automation decision-logic application. The software generates testable prototypes for traditional usability evaluations. Exportable products can be added to the base architecture.", - "tags": [ - "NASA", - "ARC", - "U.S. and Foreign Release", - "Aeronautics" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The ADEPT design tool integrates a graphical user interface with an automation decision-logic application. The software generates testable prototypes for traditional usability evaluations. Exportable products can be added to the base architecture.", "identifier": "ARC-14928-1A", - "repositoryURL": "https://software.nasa.gov/software/ARC-14928-1A", + "laborHours": 0, + "name": "Apparatus for Evaluating Software Decision Logic (ADEPT)", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-14928-1A", + "tags": [ + "NASA", + "ARC", + "U.S. and Foreign Release", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6088" }, - "name": "Future Air Traffic Management Concepts Evaluation Tool (FACET)", - "description": "FACET provides a simulation environment for evaluating novel air traffic management concepts, including air traffic control and traffic flow management. Please visit the following URL for more information about the technology: http://www.aviationsystemsdivision.arc.nasa.gov/research/modeling/facet.shtml", - "tags": [ - "NASA", - "ARC", - "U.S. and Foreign Release (Academic)", - "Aeronautics" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "FACET provides a simulation environment for evaluating novel air traffic management concepts, including air traffic control and traffic flow management. Please visit the following URL for more information about the technology: http://www.aviationsystemsdivision.arc.nasa.gov/research/modeling/facet.shtml", "identifier": "ARC-14653-1", - "repositoryURL": "https://technology.nasa.gov/patent/TOP2-109", + "laborHours": 0, + "name": "Future Air Traffic Management Concepts Evaluation Tool (FACET)", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://technology.nasa.gov/patent/TOP2-109", + "tags": [ + "NASA", + "ARC", + "U.S. and Foreign Release (Academic)", + "Aeronautics" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6089" + "$oid": "5a3a9b78da833f1e40fb6076" }, - "name": "NASA Tensegrity Robotics Toolkit (NTRT) v1", - "description": "The NASA Tensegrity Robotics Toolkit (NTRT) is a collection of C++ and MATLAB software modules for the modeling, simulation, and control of Tensegrity Robots. Tensegrity Robots are a biologically inspired approach to building robots based on the tension networks of tensegrity structures, which have no rigid connections between elements. The NTRT was created to enable: the rapid co-exploration of structures and controls in a physics based simulation environment; the development of tensegrity robotics algorithms such as structural analysis, kinematics, and motion planning; and the validation of the algorithms and controls on hardware prototypes of the tensegrity robots.\r\n\r\n", - "tags": [ - "NASA", - "ARC", - "Open Source", - "Autonomous Systems" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The T-NASA suite is composed of a collection of computer programs and libraries that enable the real-time simulation of head-up, out-the-window, and head-down moving map displays. The technology currently runs on a distributed IRIX system using the Performer graphics libraries and the X Windows graphical user interface.", + "identifier": "ARC-15246-1", + "laborHours": 0, + "name": "Taxiway Navigation and Situation Awareness (T-NASA) System Simulation Software", "organization": "ARC", - "identifier": "ARC-17093-1", - "repositoryURL": "https://github.com/NASA-Tensegrity-Robotics-Toolkit/NTRTsim", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/NASA-Tensegrity-Robotics-Toolkit/NTRTsim/blob/master/LICENSE", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-10-14" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-15246-1", + "tags": [ + "NASA", + "ARC", + "U.S. Government Purpose Release", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb608a" }, - "name": "CODE-A Software Framework For Control and Observation In Distributed Environments", - "description": "CODE is a framework for the control and observation of resources, services, and applications. The technology supports the secure and scalable transmission of observed information to other programs, and it enables the secure execution of actions on remote computer systems. ", - "tags": [ - "NASA", - "ARC", - "Open Source", - "Data Servers Processing and Handling" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "CODE is a framework for the control and observation of resources, services, and applications. The technology supports the secure and scalable transmission of observed information to other programs, and it enables the secure execution of actions on remote computer systems. ", "identifier": "ARC-14672-1", - "repositoryURL": "https://www.nas.nasa.gov/Resources/Software/Open-Source/code.html", + "laborHours": 0, + "name": "CODE-A Software Framework For Control and Observation In Distributed Environments", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://www.nas.nasa.gov/Resources/Software/Open-Source/Downloads/Code/UsageAgreement-1_0b1.txt", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb608b" + "usageType": "openSource" }, - "name": "Livingstone 2 (System for Automated Diagnosis and Discrete Control of Complex Systems) and Skunkworks (Suite of Supporting Development and Runtime Tools)", - "description": "Livingstone 2 is a reusable artificial intelligence (AI) software system designed to assist spacecraft, life support systems, chemical plants, or other complex systems in operating robustly with minimal human supervision, even in the face of hardware failures or unexpected events. The technology diagnoses the current state of a spacecraft or other system and recommends commands or repair actions that will allow the system to continue operations. A re-engineered version of the Livingstone diagnosis system that was flight-tested onboard the Deep Space One spacecraft in 1999, Livingstone 2 contains significant enhancements to robustness, performance, and usability. Skunkworks is a suite of software tools that support the rapid deployment of model-based representations of complex systems for Livingstone2 via a visual model builder/tester and two graphical user interface tools that provide status information during testing.", + "repositoryURL": "https://www.nas.nasa.gov/Resources/Software/Open-Source/code.html", "tags": [ "NASA", "ARC", "Open Source", - "Autonomous Systems" - ], + "Data Servers Processing and Handling" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6089" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-10-14" + }, + "description": "The NASA Tensegrity Robotics Toolkit (NTRT) is a collection of C++ and MATLAB software modules for the modeling, simulation, and control of Tensegrity Robots. 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The NTRT was created to enable: the rapid co-exploration of structures and controls in a physics based simulation environment; the development of tensegrity robotics algorithms such as structural analysis, kinematics, and motion planning; and the validation of the algorithms and controls on hardware prototypes of the tensegrity robots.\r\n\r\n", + "identifier": "ARC-17093-1", + "laborHours": 0, + "name": "NASA Tensegrity Robotics Toolkit (NTRT) v1", "organization": "ARC", - "identifier": "ARC-14725-1", - "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/livingstone2/", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://ti.arc.nasa.gov/opensource/nosa/livingstone2/", + "URL": "https://github.com/NASA-Tensegrity-Robotics-Toolkit/NTRTsim/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb608c" + "usageType": "openSource" }, - "name": "Mission Simulation Toolkit (MST)", - "description": "MST offers a simulation framework to support research in autonomy for remote exploration. The system allows developers to test models in a high-fidelity simulation and then evaluate system performance against a set of integrated, standardized simulations.", + "repositoryURL": "https://github.com/NASA-Tensegrity-Robotics-Toolkit/NTRTsim", "tags": [ "NASA", "ARC", "Open Source", "Autonomous Systems" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb608c" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "MST offers a simulation framework to support research in autonomy for remote exploration. The system allows developers to test models in a high-fidelity simulation and then evaluate system performance against a set of integrated, standardized simulations.", "identifier": "ARC-14932-1", - "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/mission-simulation-toolkit/", + "laborHours": 0, + "name": "Mission Simulation Toolkit (MST)", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://ti.arc.nasa.gov/opensource/nosa/mission-simulation-toolkit/", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb608d" + "usageType": "openSource" }, - "name": "Java Pathfinder (JPF), Version 2.0", - "description": "Java Pathfinder (JPF) is a model checker for Java. The technology takes a Java program and \"executes\" it in a way that explores all possible executions/interleavings of the threads in the program. This allows JPF to detect certain bugs (e.g., deadlocks and assertion violations) that may be missed during testing. ", + "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/mission-simulation-toolkit/", "tags": [ "NASA", "ARC", "Open Source", - "Data and Image Processing" - ], + "Autonomous Systems" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb608b" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Livingstone 2 is a reusable artificial intelligence (AI) software system designed to assist spacecraft, life support systems, chemical plants, or other complex systems in operating robustly with minimal human supervision, even in the face of hardware failures or unexpected events. The technology diagnoses the current state of a spacecraft or other system and recommends commands or repair actions that will allow the system to continue operations. A re-engineered version of the Livingstone diagnosis system that was flight-tested onboard the Deep Space One spacecraft in 1999, Livingstone 2 contains significant enhancements to robustness, performance, and usability. Skunkworks is a suite of software tools that support the rapid deployment of model-based representations of complex systems for Livingstone2 via a visual model builder/tester and two graphical user interface tools that provide status information during testing.", + "identifier": "ARC-14725-1", + "laborHours": 0, + "name": "Livingstone 2 (System for Automated Diagnosis and Discrete Control of Complex Systems) and Skunkworks (Suite of Supporting Development and Runtime Tools)", "organization": "ARC", - "identifier": "ARC-15388-1", - "repositoryURL": "https://babelfish.arc.nasa.gov/trac/jpf/wiki/install/repositories", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.org/licenses/NASA-1.3", + "URL": "https://ti.arc.nasa.gov/opensource/nosa/livingstone2/", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb608e" + "usageType": "openSource" }, - "name": "CAPTools-based Automatic Parallelizer Using OpenMP (CAPO)", - "description": "CAPO analyzes a Fortran program and inserts OpenMP directives into the code to improve its performance on a parallel machine. The tool relies on accurate inter-procedural data-dependence information currently provided by CAPTools, which was developed at the University of Greenwich.", + "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/livingstone2/", "tags": [ "NASA", "ARC", "Open Source", - "Data Servers Processing and Handling" - ], + "Autonomous Systems" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb608d" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Java Pathfinder (JPF) is a model checker for Java. The technology takes a Java program and \"executes\" it in a way that explores all possible executions/interleavings of the threads in the program. This allows JPF to detect certain bugs (e.g., deadlocks and assertion violations) that may be missed during testing. ", + "identifier": "ARC-15388-1", + "laborHours": 0, + "name": "Java Pathfinder (JPF), Version 2.0", "organization": "ARC", - "identifier": "ARC-14487-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-14487-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb608f" + "usageType": "openSource" }, - "name": "Sound Lab (SLAB), Version 5", - "description": "SLAB is a software-based, real-time, virtual acoustic-environment rendering system designed to study spatial hearing in environments such as concert halls, listening rooms, virtual reality, aviation spatial information displays, and video game sound effects. 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", + "repositoryURL": "https://github.com/pkolano/mutil", "tags": [ "NASA", "ARC", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60a7" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This innovation will query using a suite of operators in the Netmark/XDB query language to retrieve elements based on the absolute value of tags in the XML source. In an earlier version of the software, element retrieval was based solely on \"full-text\" term searches of the tags and their values. ", "identifier": "ARC-16119-1B", - "repositoryURL": "https://sourceforge.net/projects/darcxdb3", + "laborHours": 0, + "name": "Netmark eXtensible DataBase, Data Access and Retrieval Composition (XDB3-DARC)", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://sourceforge.net/projects/darcxdb3", + "tags": [ + "NASA", + "ARC", + "Open Source", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60a8" }, - "name": "PathDroid", - "description": "PathDroid is an extension of the open sourced Java Pathfinder (JPF) verification framework that supports checking binary Android applications for absence of software defects such as unhandled exceptions and deadlocks.\r\nPathDroid let users run such applications on development platforms, without the need for hardware-in-the-loop or availability of sources.\r\n", - "tags": [ - "NASA", - "ARC", - "Open Source", - "System Testing" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-11-5" + }, + "description": "PathDroid is an extension of the open sourced Java Pathfinder (JPF) verification framework that supports checking binary Android applications for absence of software defects such as unhandled exceptions and deadlocks.\r\nPathDroid let users run such applications on development platforms, without the need for hardware-in-the-loop or availability of sources.\r\n", "identifier": "ARC-17293-1", - "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/pathdroid/", + "laborHours": 0, + "name": "PathDroid", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://www.apache.org/licenses/LICENSE-2.0", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-11-5" - } + "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/pathdroid/", + "tags": [ + "NASA", + "ARC", + "Open Source", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60a9" }, - "name": "BALFIT - A Multivariate Regression Analysis Tool", - "description": "BALFIT is designed for the automated regression analysis of wind tunnel strain-gage balance calibration data. 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The software exports weather data in formats compatible with widely used air- and ground-tool simulators.", "identifier": "ARC-16827-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-16827-1", + "laborHours": 0, + "name": "StormGen Weather Editor", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60b9" + "usageType": "governmentWideReuse" }, - "name": "ARC2D (Efficient Two-Dimensional Solution Methods For The Navier-Stokes Equations)", - "description": "ARC2D is a computational fluid dynamics program developed at the NASA Ames Research Center specifically for two-dimensional airfoil and simply connected geometries. 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The evolution of the solution through time is physically realistic; good solution accuracy is dependent on mesh spacing and boundary conditions.", + "repositoryURL": "https://software.nasa.gov/software/ARC-16827-1", "tags": [ "NASA", "ARC", "U.S. Release Only", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60b9" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-9-29" + }, + "description": "ARC2D is a computational fluid dynamics program developed at the NASA Ames Research Center specifically for two-dimensional airfoil and simply connected geometries. The program uses implicit finite-difference techniques to solve two-dimensional Euler equations and Navier-Stokes equations. It is based on the Beam and Warming implicit approximate factorization algorithm in generalized coordinates. 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The evolution of the solution through time is physically realistic; good solution accuracy is dependent on mesh spacing and boundary conditions.", "identifier": "ARC-12112-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-12112-1", + "laborHours": 0, + "name": "ARC2D (Efficient Two-Dimensional Solution Methods For The Navier-Stokes Equations)", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-9-29" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-12112-1", + "tags": [ + "NASA", + "ARC", + "U.S. Release Only", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60ba" }, - "name": "Airspace Concepts Evaluation System (ACES)", - "description": "From gate departure to gate arrival, ACES is a dynamic, event-based computer simulation of aircraft operations in the National Airspace System (NAS). 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The technology's software-agent infrastructure provides flexibility in configuring custom simulations and enables explicit modeling of command and control entities operating within the NAS.", "identifier": "ARC-15068-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-15068-1", + "laborHours": 0, + "name": "Airspace Concepts Evaluation System (ACES)", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-15068-1", + "tags": [ + "NASA", + "ARC", + "U.S. and Foreign Release (Academic)", + "Aeronautics" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb60bb" + "$oid": "5a3a9b78da833f1e40fb60bc" }, - "name": "Model-Based Diagnosis Engine For Stochastic Hybrid Systems (HyDE)", - "description": "HyDE is a model-based diagnostic engine capable of detecting and isolating discrete (possibly multiple) faults in physical systems. 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The environment also includes facilities for displaying images on screen, drawing and overlaying graphics, and constructing graphical user interfaces using the scripting language. Currently supported platforms are *NIX (tested on Mac OS X and Linux), and Apple iOS.", + "identifier": "ARC-16295-1A", + "laborHours": 0, + "name": "Portable Environment for Quick Image Processing (QuIP)", "organization": "ARC", - "identifier": "ARC-15570-1A", - "repositoryURL": "https://software.nasa.gov/software/ARC-15570-1A", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" + "URL": "https://github.com/nasa/QuIP/blob/master/LICENSE.PDF", + "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60bc" + "usageType": "openSource" }, - "name": "Portable Environment for Quick Image Processing (QuIP)", - "description": "The QuIP interpreter, a software environment for QUick image processing, uses an interactive scripting language designed to facilitate use by non-expert users, through features such as context-sensitive automatic response completion and integrated documentation. 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Please visit the following URL for more information: http://ti.arc.nasa.gov/tech/dash/diagnostics-and-prognostics/hyde-diagnostics/", + "identifier": "ARC-15570-1A", + "laborHours": 0, + "name": "Model-Based Diagnosis Engine For Stochastic Hybrid Systems (HyDE)", "organization": "ARC", - "identifier": "ARC-16295-1A", - "repositoryURL": "https://github.com/nasa/QuIP", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/QuIP/blob/master/LICENSE.PDF", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-4-14" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-15570-1A", + "tags": [ + "NASA", + "ARC", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60bd" }, - "name": "Extendable Uniform Remote Operations Planning Architecture (EUROPA) 2.1", - "description": "EUROPA is a general-purpose, reusable, artificial intelligence software system. The tool generates plans for performing complex activities in parallel. Functionality includes the capability of verifying that a plan satisfies all constraints. ", - "tags": [ - "NASA", - "ARC", - "Open Source", - "Autonomous Systems" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "EUROPA is a general-purpose, reusable, artificial intelligence software system. The tool generates plans for performing complex activities in parallel. Functionality includes the capability of verifying that a plan satisfies all constraints. ", "identifier": "ARC-15936-1", - "repositoryURL": "https://github.com/nasa/europa", + "laborHours": 0, + "name": "Extendable Uniform Remote Operations Planning Architecture (EUROPA) 2.1", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://github.com/nasa/europa", + "tags": [ + "NASA", + "ARC", + "Open Source", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60be" }, - "name": "Flight Deck Predictive Weather Display and Decision Support Interface", - "description": "Flight Deck Predictive Weather Display and Decision Support Interface is a suite of three methods that support the display of flight deck predictive weather and pilot weather avoidance decisions. 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", "identifier": "ARC-16833-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-16833-1", + "laborHours": 0, + "name": "Flight Deck Predictive Weather Display and Decision Support Interface", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-6-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60bf" + "usageType": "governmentWideReuse" }, - "name": "Traffic Situation Display (TSD)", - "description": "The Traffic Situation Display (TSD) is an integrated display of air traffic, weather, terrain, and special use airspace. TSD was designed to serve as a primary graphical interface for ground operators/dispatchers supporting research simulation of single pilot and/or reduced crew operations. 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RACE is implemented as a distributed actor system that runs within Java virtual machines.", + "identifier": "ARC-17749-1", + "laborHours": 0, + "name": "RACE - Runtime for Airspace Concept Evaluation", "organization": "ARC", - "identifier": "ARC-16063-1A", - "repositoryURL": "https://software.nasa.gov/software/ARC-16063-1A", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" - } + "URL": "https://github.com/NASARace/race/blob/master/LICENSE.txt", + "name": "NASA v3" + } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-6-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60c0" + "usageType": "openSource" }, - "name": "RACE - Runtime for Airspace Concept Evaluation", - "description": "RACE is a software architecture and framework for configurable, highly concurrent and distributed message based systems. 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The technology has been implemented as a grid service that is compliant with an Open Grid Services Infrastructure (OGSI), and it can also be embedded directly into Java applications through its application programming interface or into non-java applications through its XML-based command-line interface.", + "identifier": "ARC-15295-1", + "laborHours": 0, + "name": "Surfer: An Extensible Pull-Based Framework For Resource Selection and Ranking", "organization": "ARC", - "identifier": "ARC-17749-1", - "repositoryURL": "https://github.com/NASARace/race", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/NASARace/race/blob/master/LICENSE.txt", + "URL": "https://ti.arc.nasa.gov/opensource/nosa/surfer", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-6-24" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60c1" + "usageType": "openSource" }, - "name": "Surfer: An Extensible Pull-Based Framework For Resource Selection and Ranking", - "description": "Surfer examines the pool of potential grid resources and extracts the highest-ranking resources that meet user-specified constraints and preferences. 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", "identifier": "ARC-15468-1", - "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/pour/", + "laborHours": 0, + "name": "Pour: A Framework for Periodic, On-Demand, and User-Specified Information Reconciliation", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://ti.arc.nasa.gov/opensource/nosa/pour/", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60c3" + "usageType": "openSource" }, - "name": "Swim: A Software Information Metacatalog for the Grid", - "description": "Swim is a software information service for the grid built on top of the NASA-developed Pour framework. 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", + "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/javagenes/", "tags": [ "NASA", "ARC", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60c9" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "JavaGenes-Scheduler is a general purpose evolutionary system designed to compare techniques for scheduling observations. It was originally developed for scheduling observations made by Earth-observing satellites. 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The toolbox uses a network communication protocol, allowing X-Plane and the client program to run on different computers.", + "repositoryURL": "https://github.com/geocam/geocamShare", "tags": [ "NASA", "ARC", "Open Source", - "Aeronautics" - ], + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60cd" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-7" + }, + "description": "Open MCT is an open source and web-based mission control framework for visualization of data on desktop and mobile devices. Open MCT is designed for analysis, visualization, operation, and support of spacecraft missions. Open MCT provides an extensible plugin system allowing it to be integrated with existing ground systems, and adapted to support multiple missions as well as non-space applications.", + "identifier": "ARC-15256-1D", + "laborHours": 0, + "name": "Open Mission Control Technologies (Open MCT)", "organization": "ARC", - "identifier": "ARC-17185-1", - "repositoryURL": "https://github.com/nasa/XPlaneConnect/", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/XPlaneConnect/blob/master/license.pdf", + "URL": "https://github.com/nasa/openmct/blob/master/LICENSES.md", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-11-12" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60cd" + "usageType": "openSource" }, - "name": "Open Mission Control Technologies (Open MCT)", - "description": "Open MCT is an open source and web-based mission control framework for visualization of data on desktop and mobile devices. 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The toolbox uses a network communication protocol, allowing X-Plane and the client program to run on different computers.", + "identifier": "ARC-17185-1", + "laborHours": 0, + "name": "X-Plane Communication Toolbox (XPC)", "organization": "ARC", - "identifier": "ARC-15256-1D", - "repositoryURL": "https://github.com/nasa/openmctweb", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/openmct/blob/master/LICENSES.md", + "URL": "https://github.com/nasa/XPlaneConnect/blob/master/license.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-7" - } + "repositoryURL": "https://github.com/nasa/XPlaneConnect/", + "tags": [ + "NASA", + "ARC", + "Open Source", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60ce" }, - "name": "Desktop Exploration of Remote Terrain (DERT)", - "description": "Desktop Exploration of Remote Terrain (DERT) is a software tool for exploring large Digital Terrain Models (DTMs) in 3D. 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The technology automatically analyzes the nominal system data to form general classes of expected system sensor values; these classes are used to build a monitoring knowledge base. When monitoring a system, IMS simply checks to see how well the incoming sensor data fit into the classes derived from the training data.", + "repositoryURL": "https://software.nasa.gov/software/ARC-15601-1", "tags": [ "NASA", "ARC", "U.S. Government Purpose Release", - "Data and Image Processing" - ], + "Aeronautics" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60d3" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Brahms is a multiagent programming language for modeling people and systems in a conceptual world. 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ODVEC uses models automatically derived from archived system data to identify unusual, out-of-family data samples (outliers) that indicate possible system failure or degradation.", + "repositoryURL": "https://software.nasa.gov/software/ARC-15654-1", "tags": [ "NASA", "ARC", "U.S. Government Purpose Release", - "Data and Image Processing" - ], + "Business Systems and Project Management" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60d1" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "IMS software utilizes techniques from the fields of model-based reasoning, machine learning, and data mining to build system monitoring knowledge bases from archived or simulated sensor data. The technology automatically analyzes the nominal system data to form general classes of expected system sensor values; these classes are used to build a monitoring knowledge base. When monitoring a system, IMS simply checks to see how well the incoming sensor data fit into the classes derived from the training data.", + "identifier": "ARC-15058-1A", + "laborHours": 0, + "name": "Inductive Monitoring System (IMS), Version 5: System Health Monitoring Software That Learns System Behavior from Data", "organization": "ARC", - "identifier": "ARC-16467-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-16467-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60d3" + "usageType": "governmentWideReuse" }, - "name": "Brahms: A Multiagent Simulation/Execution Environment for the Brahms Multiagent Language", - "description": "Brahms is a multiagent programming language for modeling people and systems in a conceptual world. Brahms language gives users the ability to model the behavior of human organization, communication,and teamwork, as well as human-machine interaction.", + "repositoryURL": "https://software.nasa.gov/software/ARC-15058-1A", "tags": [ "NASA", "ARC", "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60d4" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "CBAero is a software tool for the prediction of the conceptual aero-thermodynamic environments of aerospace configurations. The vehicle geometry is defined using unstructured, triangulated surface meshes. For subsonic Mach numbers a fast, unstructured, multi-pole panel code is coupled with a streamline tracing formulation to define the viscous surface solution. For supersonic and hypersonic Mach numbers, various independent panel methods are coupled with the streamline tracing formulation, attachment line detection methods, and stagnation-attachment line heating models to define the viscous aero-thermal environment.", + "identifier": "ARC-15819-1", + "laborHours": 0, + "name": "Configuration-Based Aerodynamics (CBAero)", "organization": "ARC", - "identifier": "ARC-15654-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-15654-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60d4" + "usageType": "governmentWideReuse" }, - "name": "Configuration-Based Aerodynamics (CBAero)", - "description": "CBAero is a software tool for the prediction of the conceptual aero-thermodynamic environments of aerospace configurations. 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For supersonic and hypersonic Mach numbers, various independent panel methods are coupled with the streamline tracing formulation, attachment line detection methods, and stagnation-attachment line heating models to define the viscous aero-thermal environment.", + "repositoryURL": "https://software.nasa.gov/software/ARC-15819-1", "tags": [ "NASA", "ARC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60d2" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Outlier Detection Via Estimating Clusters (ODVEC) software provides an efficient method for real-time or offline analysis of multivariate sensor data for use in anomaly detection, fault detection, and system health monitoring. ODVEC uses models automatically derived from archived system data to identify unusual, out-of-family data samples (outliers) that indicate possible system failure or degradation.", + "identifier": "ARC-16467-1", + "laborHours": 0, + "name": "Outlier Detection Via Estimating Clusters (ODVEC)", "organization": "ARC", - "identifier": "ARC-15819-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-15819-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-16467-1", + "tags": [ + "NASA", + "ARC", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60d5" }, - "name": "Incompressible Navier-Stokes CFD Solver (INS3D)", - "description": "The INS3D code solves the incompressible Naiver-Stokes equations in three-dimensional generalized coordinates for both steady-state and time varying flow. 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This code was developed in the 1990s and is no longer under development at NASA.", - "tags": [ - "NASA", - "ARC", - "U.S. Release Only", - "Design and Integration Tools" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-8-3" + }, + "description": "The INS3D code solves the incompressible Naiver-Stokes equations in three-dimensional generalized coordinates for both steady-state and time varying flow. The equations are formulated using the method of artificial compressibility. The convective terms are differenced using an upwind biased flux-difference splitting. The equations are solved using an implicit line-relaxation scheme. The code is written for single or multiple-zone calculations. It can utilize either pointwise continuous zonal interfaces, or overset zonal interfaces if a PEGASUS interpolation database is supplied. The INS3D code is written in Fortran77 and C. The code only runs in a serial execution mode. This code was developed in the 1990s and is no longer under development at NASA.", "identifier": "ARC-14020-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-14020-1", + "laborHours": 0, + "name": "Incompressible Navier-Stokes CFD Solver (INS3D)", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-8-3" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60d6" + "usageType": "governmentWideReuse" }, - "name": "PLOT3D, Version 4.1", - "description": "PLOT3D is a computer graphics program designed to visualize the grid and solutions of structured computational fluid dynamics (CFD) datasets. Version 4.1 uses the OpenGL/GLUT graphics library. 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UFAT effectively reduces the analysis time of multi-gigabyte datasets from weeks to hours using state-of-the-art particle tracking and feature detection algorithms.", + "identifier": "ARC-14800-1", + "laborHours": 0, + "name": "Unsteady Flow Analysis Toolkit (UFAT)", "organization": "ARC", - "identifier": "ARC-14400-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-14400-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60d7" + "usageType": "governmentWideReuse" }, - "name": "Unsteady Flow Analysis Toolkit (UFAT)", - "description": "UFAT is a software program for analyzing time-dependent flow fields. 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The architecture of the NDARC code accommodates configuration flexibility, a hierarchy of models, and ultimately multidisciplinary design, analysis, and optimization.", + "identifier": "ARC-16265-1", + "laborHours": 0, + "name": "NASA Design and Analysis of Rotorcraft (NDARC)", "organization": "ARC", - "identifier": "ARC-14800-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-14800-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60d8" + "usageType": "governmentWideReuse" }, - "name": "NASA Design and Analysis of Rotorcraft (NDARC)", - "description": "NDARC software is an aircraft system analysis tool that supports both conceptual design efforts and technology impact assessments of rotorcraft that meet specified requirements. The architecture of the NDARC code accommodates configuration flexibility, a hierarchy of models, and ultimately multidisciplinary design, analysis, and optimization.", + "repositoryURL": "https://software.nasa.gov/software/ARC-16265-1", "tags": [ "NASA", "ARC", "U.S. Release Only", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60d6" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", - "identifier": "ARC-16265-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-16265-1", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "PLOT3D is a computer graphics program designed to visualize the grid and solutions of structured computational fluid dynamics (CFD) datasets. Version 4.1 uses the OpenGL/GLUT graphics library. Several new features have been added to the code. These include: automatic computation of grid coordinate minimum/maximum; an orphan point plotting function; the ability to read double-precision unformatted data; negative grid index processing; random specification of colors for different walls; and simultaneous specification of walls and subsets for all zones.", + "identifier": "ARC-14400-1", + "laborHours": 0, + "name": "PLOT3D, Version 4.1", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60d9" + "usageType": "governmentWideReuse" }, - "name": "Chimera Grid Tools, Version 2.1", - "description": "The Chimera Grid Tools software package contains a collection of software tools for performing geometry processing, surface and volume grid generation, grid manipulation and diagnostics, flow solver input preparation, multi-body dynamics input preparation and animation, flow solution visualization, debris trajectory analysis input preparation, strand grid and AMR Cartesian grid visualization, flow solution post-processing analysis including forces and moments computation, and convergence history visualization. ", + "repositoryURL": "https://software.nasa.gov/software/ARC-14400-1", "tags": [ "NASA", "ARC", "U.S. Release Only", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60d9" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Chimera Grid Tools software package contains a collection of software tools for performing geometry processing, surface and volume grid generation, grid manipulation and diagnostics, flow solver input preparation, multi-body dynamics input preparation and animation, flow solution visualization, debris trajectory analysis input preparation, strand grid and AMR Cartesian grid visualization, flow solution post-processing analysis including forces and moments computation, and convergence history visualization. ", "identifier": "ARC-16025-1A", - "repositoryURL": "https://software.nasa.gov/software/ARC-16025-1A", + "laborHours": 0, + "name": "Chimera Grid Tools, Version 2.1", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60da" + "usageType": "governmentWideReuse" }, - "name": "Virtual Airspace Simulation Technology, Real Time (VAST-RT), Capability Two", - "description": "Designed to assess advanced automation concepts and procedures being considered for the next-generation air traffic management system, VAST-RT offers real-time simulations across all air traffic control domains. Gate-to-gate simulations can involve piloted flight simulators, multiple NASA centers, TRACONS, and towers. The software's architecture links disparate legacy facilities together with simulation components developed in house.", + "repositoryURL": "https://software.nasa.gov/software/ARC-16025-1A", "tags": [ "NASA", "ARC", - "U.S. and Foreign Release", + "U.S. Release Only", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60db" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "MIDAS is a 3D rapid-prototyping human-performance modeling environment that facilitates the design, visualization, and computational evaluation of complex man-machine system concepts in simulated operational environments. The tool links a virtual human to a computational cognitive structure that represents human capabilities and limitations. 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An easy-to-use graphical user interface makes the software an accessible tool for designers; no expertise in computer science, programming, or human performance modeling is required.", + "identifier": "ARC-16050-1A", + "laborHours": 0, + "name": "Man-Machine Integration Design and Analysis System, (MIDAS) Version 5", "organization": "ARC", - "identifier": "ARC-15658-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-15658-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60db" + "usageType": "governmentWideReuse" }, - "name": "Man-Machine Integration Design and Analysis System, (MIDAS) Version 5", - "description": "MIDAS is a 3D rapid-prototyping human-performance modeling environment that facilitates the design, visualization, and computational evaluation of complex man-machine system concepts in simulated operational environments. 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The software's architecture links disparate legacy facilities together with simulation components developed in house.", + "identifier": "ARC-15658-1", + "laborHours": 0, + "name": "Virtual Airspace Simulation Technology, Real Time (VAST-RT), Capability Two", "organization": "ARC", - "identifier": "ARC-16050-1A", - "repositoryURL": "https://software.nasa.gov/software/ARC-16050-1A", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60dc" + "usageType": "governmentWideReuse" }, - "name": "Trajectory-Based Route Analysis and Control (TRAC)", - "description": "TRAC is an extensible software platform that supports next-generation air traffic concept investigations. The software enables visualization of current-day airspace elements; graphical creation of new elements; and runway-to-runway agent-based simulation and analysis of air traffic concepts.", + "repositoryURL": "https://software.nasa.gov/software/ARC-15658-1", "tags": [ "NASA", "ARC", "U.S. and Foreign Release", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60dd" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-9-29" + }, + "description": "FIAT v3 simulates one-dimensional thermal energy transport in a multilayer stack of isotropic materials and structures that can ablate from the front surface and decompose in depth. The implicit solution algorithm and general solution technique make the program very stable and robust for application to both robotic and crewed vehicles entering a planetary atmosphere from space. For input, the code reads material property information from a database file.", + "identifier": "ARC-15779-1A", + "laborHours": 0, + "name": "Fully Implicit Ablation and Thermal Analysis Program, Version 3 (FIAT v3) - unrestricted version", "organization": "ARC", - "identifier": "ARC-16433-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-16433-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60dd" + "usageType": "governmentWideReuse" }, - "name": "Fully Implicit Ablation and Thermal Analysis Program, Version 3 (FIAT v3) - unrestricted version", - "description": "FIAT v3 simulates one-dimensional thermal energy transport in a multilayer stack of isotropic materials and structures that can ablate from the front surface and decompose in depth. The implicit solution algorithm and general solution technique make the program very stable and robust for application to both robotic and crewed vehicles entering a planetary atmosphere from space. For input, the code reads material property information from a database file.", + "repositoryURL": "https://software.nasa.gov/software/ARC-15779-1A", "tags": [ "NASA", "ARC", "U.S. and Foreign Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60dc" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "TRAC is an extensible software platform that supports next-generation air traffic concept investigations. The software enables visualization of current-day airspace elements; graphical creation of new elements; and runway-to-runway agent-based simulation and analysis of air traffic concepts.", + "identifier": "ARC-16433-1", + "laborHours": 0, + "name": "Trajectory-Based Route Analysis and Control (TRAC)", "organization": "ARC", - "identifier": "ARC-15779-1A", - "repositoryURL": "https://software.nasa.gov/software/ARC-15779-1A", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-9-29" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-16433-1", + "tags": [ + "NASA", + "ARC", + "U.S. and Foreign Release", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60de" }, - "name": "NEQAIR v14.x, Nonequilibrium Radiative Transport and Spectra Program", - "description": "NEQAIR is a line-by-line radiation code that computes spontaneous emission, absorption and stimulated emission due to transitions between various energy states of chemical species along a line-of-sight. \r\nNEQAIR v14.0 is a complex code that enables the calculation of: (1) Nonequlibrium or equilibrium populations of excited energy levels for atomic and diatomic molecules, (2) Optical radiation emitted and absorbed by atomic and diatomic rotational lines along a line-of-sight or across a shock tube, (3)Transport of optical radiation through a non uniform gas mixture to a solid surface and (4) Detailed spectra at points along a line-of-sight and at a surface and plots them.\r\n", - "tags": [ - "NASA", - "ARC", - "U.S. and Foreign Release", - "Design and Integration Tools" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-12-11" + }, + "description": "NEQAIR is a line-by-line radiation code that computes spontaneous emission, absorption and stimulated emission due to transitions between various energy states of chemical species along a line-of-sight. \r\nNEQAIR v14.0 is a complex code that enables the calculation of: (1) Nonequlibrium or equilibrium populations of excited energy levels for atomic and diatomic molecules, (2) Optical radiation emitted and absorbed by atomic and diatomic rotational lines along a line-of-sight or across a shock tube, (3)Transport of optical radiation through a non uniform gas mixture to a solid surface and (4) Detailed spectra at points along a line-of-sight and at a surface and plots them.\r\n", "identifier": "ARC-15262-1B", - "repositoryURL": "https://software.nasa.gov/software/ARC-15262-1B", + "laborHours": 0, + "name": "NEQAIR v14.x, Nonequilibrium Radiative Transport and Spectra Program", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-12-11" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-15262-1B", + "tags": [ + "NASA", + "ARC", + "U.S. and Foreign Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60df" }, - "name": "Terrestrial Observation and Prediction System (TOPS) Biogeochemical cycle (BGC) model", - "description": "The Terrestrial Observation and Prediction System (TOPS) is a modeling software that integrates data from satellites, weather stations, climate models with ecosystem models to produce nowcasts and forecasts of ecological conditions. The key tools used in producing the nowcasts and forecasts are simulation models including biogeochemical and ecosystem models that estimate the states (vegetation leaf area, biomass, soil moisture, snow, etc.) and functions (evapotranspiration, photosynthesis, etc.) of various kinds of plant canopies (forests, crops, grass, shrubs). These ecological nowcasts and forecasts are akin to current and forecast weather conditions. Upon further refinement and testing, the ecological nowcasts and forecasts are useful for making a variety of management decisions such as irrigation scheduling, timing of field operations, preparing for floods/droughts, vector-borne diseases, crop phenology and production. ", - "tags": [ - "NASA", - "ARC", - "U.S. and Foreign Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-19" + }, + "description": "The Terrestrial Observation and Prediction System (TOPS) is a modeling software that integrates data from satellites, weather stations, climate models with ecosystem models to produce nowcasts and forecasts of ecological conditions. The key tools used in producing the nowcasts and forecasts are simulation models including biogeochemical and ecosystem models that estimate the states (vegetation leaf area, biomass, soil moisture, snow, etc.) and functions (evapotranspiration, photosynthesis, etc.) of various kinds of plant canopies (forests, crops, grass, shrubs). These ecological nowcasts and forecasts are akin to current and forecast weather conditions. Upon further refinement and testing, the ecological nowcasts and forecasts are useful for making a variety of management decisions such as irrigation scheduling, timing of field operations, preparing for floods/droughts, vector-borne diseases, crop phenology and production. ", "identifier": "ARC-16197-1A", - "repositoryURL": "https://software.nasa.gov/software/ARC-16197-1A", + "laborHours": 0, + "name": "Terrestrial Observation and Prediction System (TOPS) Biogeochemical cycle (BGC) model", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-19" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-16197-1A", + "tags": [ + "NASA", + "ARC", + "U.S. and Foreign Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60e0" }, - "name": "Prognostics Algorithm Library", - "description": "The Prognostics Algorithm Library is a suite of algorithms implemented in the MATLAB programming language for model-based prognostics (remaining life computation). It includes algorithms for state estimation and prediction, including uncertainty propagation. The algorithms take as inputs component models developed in Matlab, and perform estimation and prediction functions. The library allows the rapid development of prognostics solutions for given models of components and systems. Different algorithms can be easily swapped to do comparative studies and evaluations of different algorithms to select the best for the application at hand.", - "tags": [ - "NASA", - "ARC", - "Open Source", - "Autonomous Systems" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-8-15" + }, + "description": "The Prognostics Algorithm Library is a suite of algorithms implemented in the MATLAB programming language for model-based prognostics (remaining life computation). It includes algorithms for state estimation and prediction, including uncertainty propagation. The algorithms take as inputs component models developed in Matlab, and perform estimation and prediction functions. The library allows the rapid development of prognostics solutions for given models of components and systems. Different algorithms can be easily swapped to do comparative studies and evaluations of different algorithms to select the best for the application at hand.", "identifier": "ARC-17735-1", - "repositoryURL": "https://github.com/nasa/PrognosticsAlgorithmLibrary/", + "laborHours": 0, + "name": "Prognostics Algorithm Library", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/PrognosticsAlgorithmLibrary/blob/master/LICENSE.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-8-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60e1" - }, - "name": "Prognostics Model Library", - "description": "The Prognostics Model Library is a modeling framework focused on defining and building models for prognostics (computation of remaining useful life) of engineering systems, and provides a set of prognostics models for select components developed within this framework, suitable for use in prognostics applications for these components. The library currently includes models for valves, pumps, and batteries. The Prognostics Model Library is implemented in MATLAB. The implementation consists of a set of utilities for defining a model (specifying variables, parameters, and equations), simulating the model, and embedding it within common model-based prognostics algorithms. A user can use existing models within the library or construct new models with the provided framework.", + "repositoryURL": "https://github.com/nasa/PrognosticsAlgorithmLibrary/", "tags": [ "NASA", "ARC", "Open Source", "Autonomous Systems" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60e2" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "PMARC is a three-dimensional panel code to solve potential flow around wings and bodies. Relative motion between multiple bodies can be simulated", + "identifier": "ARC-14407-1", + "laborHours": 0, + "name": "Low-Order Potential Flow Panel Code (PMARC), Version 14", "organization": "ARC", - "identifier": "ARC-17736-1", - "repositoryURL": "https://github.com/nasa/PrognosticsModelLibrary/", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/PrognosticsModelLibrary/blob/master/LICENSE.pdf", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-8-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60e2" + "usageType": "governmentWideReuse" }, - "name": "Low-Order Potential Flow Panel Code (PMARC), Version 14", - "description": "PMARC is a three-dimensional panel code to solve potential flow around wings and bodies. Relative motion between multiple bodies can be simulated", + "repositoryURL": "https://software.nasa.gov/software/ARC-14407-1", "tags": [ "NASA", "ARC", "U.S. and Foreign Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60e3" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The NASA Task Load Index (TLX) provides multi-dimensional ratings of overall workload based on a weighted average of six subscales: mental demands, physical demands, temporal demands, performance, effort, and frustration.", + "identifier": "ARC-15150-1", + "laborHours": 0, + "name": "NASA Task Load Index (TLX)", "organization": "ARC", - "identifier": "ARC-14407-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-14407-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60e3" + "usageType": "governmentWideReuse" }, - "name": "NASA Task Load Index (TLX)", - "description": "The NASA Task Load Index (TLX) provides multi-dimensional ratings of overall workload based on a weighted average of six subscales: mental demands, physical demands, temporal demands, performance, effort, and frustration.", + "repositoryURL": "https://software.nasa.gov/software/ARC-15150-1", "tags": [ "NASA", "ARC", "General Public Release", "Crew and Life Support" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60e4" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software provides a means for simulating supersonic and hypersonic flows efficiently and accurately (under certain restrictions). The parabolized Navier-Stokes (PNS) equations are solved using an upwind finite-volume algorithm that is implicit in the marching direction. The solver includes models for turbulent flow and equilibrium- and finite-rate air chemistry.", + "identifier": "ARC-15250-1", + "laborHours": 0, + "name": "Upwind Parabolized Navier-Stokes Solver (UPS) for Supersonic and Hypersonic Flow Simulation, Version 6.1", "organization": "ARC", - "identifier": "ARC-15150-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-15150-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60e4" + "usageType": "governmentWideReuse" }, - "name": "Upwind Parabolized Navier-Stokes Solver (UPS) for Supersonic and Hypersonic Flow Simulation, Version 6.1", - "description": "This software provides a means for simulating supersonic and hypersonic flows efficiently and accurately (under certain restrictions). The parabolized Navier-Stokes (PNS) equations are solved using an upwind finite-volume algorithm that is implicit in the marching direction. The solver includes models for turbulent flow and equilibrium- and finite-rate air chemistry.", + "repositoryURL": "https://software.nasa.gov/software/ARC-15250-1", "tags": [ "NASA", "ARC", "U.S. Government Purpose Release", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60e1" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-8-15" + }, + "description": "The Prognostics Model Library is a modeling framework focused on defining and building models for prognostics (computation of remaining useful life) of engineering systems, and provides a set of prognostics models for select components developed within this framework, suitable for use in prognostics applications for these components. The library currently includes models for valves, pumps, and batteries. The Prognostics Model Library is implemented in MATLAB. The implementation consists of a set of utilities for defining a model (specifying variables, parameters, and equations), simulating the model, and embedding it within common model-based prognostics algorithms. A user can use existing models within the library or construct new models with the provided framework.", + "identifier": "ARC-17736-1", + "laborHours": 0, + "name": "Prognostics Model Library", "organization": "ARC", - "identifier": "ARC-15250-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-15250-1", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" + "URL": "https://github.com/nasa/PrognosticsModelLibrary/blob/master/LICENSE.pdf", + "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://github.com/nasa/PrognosticsModelLibrary/", + "tags": [ + "NASA", + "ARC", + "Open Source", + "Autonomous Systems" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb60e5" + "$oid": "5a3a9b78da833f1e40fb60e6" }, - "name": "Pegasus 5.2: Software For Automated Pre-Processing of Overset CFD Grids", - "description": "The Pegasus software is used as a pre-processor for overset-grid Computational Fluid Dynamics (CFD) simulations. It provides the hole-cutting and connectivity information between structured overset grids. The main features of the software include automated hole-cutting algorithms, a projection scheme for fixing small discretization errors in overset surface; efficient interpolation search methods; hole-size optimization based on adding additional layers of fringe points; and an automatic restart capability. The code can run in parallel using the Message-Passing Interface (MPI) standard. The parallel performance provides efficient speed-up of the execution time utilizing dozens or even hundreds of processors. The additional capabilities in the new 5.2 version include: support for cell-centered grids; triple-fringe option; automated domain decomposition into multiple hole-cutters; improved parallel execution load-balancing algorithm; and additional minor enhancements.", - "tags": [ - "NASA", - "ARC", - "U.S. Release Only", - "Aeronautics" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The DPLR software package is a suite of CFD tools for the computation of supersonic and hypersonic flows in chemical and thermal nonequilibrium. Included in the package are 2D/axisymmetric and 3D structured grid finite volume Navier-Stokes codes, a pre-processor, and a post-processor. The code supports implicit boundary conditions, generalized multi-block topologies, grid alignment to flow features, and generalized chemical kinetics and thermodynamic property databases.", + "identifier": "ARC-16021-1A", + "laborHours": 0, + "name": "Data Parallel Line Relaxation Code (DPLR), Version 4", "organization": "ARC", - "identifier": "ARC-15117-1A", - "repositoryURL": "https://software.nasa.gov/software/ARC-15117-1A", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-6-8" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60e6" + "usageType": "governmentWideReuse" }, - "name": "Data Parallel Line Relaxation Code (DPLR), Version 4", - "description": "The DPLR software package is a suite of CFD tools for the computation of supersonic and hypersonic flows in chemical and thermal nonequilibrium. Included in the package are 2D/axisymmetric and 3D structured grid finite volume Navier-Stokes codes, a pre-processor, and a post-processor. The code supports implicit boundary conditions, generalized multi-block topologies, grid alignment to flow features, and generalized chemical kinetics and thermodynamic property databases.", + "repositoryURL": "https://software.nasa.gov/software/ARC-16021-1A", "tags": [ "NASA", "ARC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60e5" + }, "contact": { "email": "arc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-6-8" + }, + "description": "The Pegasus software is used as a pre-processor for overset-grid Computational Fluid Dynamics (CFD) simulations. It provides the hole-cutting and connectivity information between structured overset grids. The main features of the software include automated hole-cutting algorithms, a projection scheme for fixing small discretization errors in overset surface; efficient interpolation search methods; hole-size optimization based on adding additional layers of fringe points; and an automatic restart capability. The code can run in parallel using the Message-Passing Interface (MPI) standard. The parallel performance provides efficient speed-up of the execution time utilizing dozens or even hundreds of processors. The additional capabilities in the new 5.2 version include: support for cell-centered grids; triple-fringe option; automated domain decomposition into multiple hole-cutters; improved parallel execution load-balancing algorithm; and additional minor enhancements.", + "identifier": "ARC-15117-1A", + "laborHours": 0, + "name": "Pegasus 5.2: Software For Automated Pre-Processing of Overset CFD Grids", "organization": "ARC", - "identifier": "ARC-16021-1A", - "repositoryURL": "https://software.nasa.gov/software/ARC-16021-1A", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-15117-1A", + "tags": [ + "NASA", + "ARC", + "U.S. Release Only", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60e7" }, - "name": "Porous Material Analysis Toolbox (PATO) Based on OpenFoam", - "description": "The Porous material Analysis Toolbox (PATO) is a modular analysis platform for multiphase porous reactive materials. It can be run as a simple Fourier heat transfer code or include more advanced features as internal decomposition (pyrolysis, vaporization), gas-gas and gas-solid chemical interactions (combustion, cracking, coking), gas species transport (convection, diffusion), and solid morphology evolutions (internal density changes, surface ablation).\r\nPATO is implemented as a C++ top level module of the open source (GNU GPL) computational fluid dynamics software program OpenFOAM. This offering is not approved or endorsed by OpenCFD Limited, the producer of the OpenFOAM software and owner of the OPENFOAM and OpenCFD trademarks. PATO also uses the open source (GNU LGPL) thermodynamics, transport, and chemistry library Mutation++ produced by the von Karman Institute for Fluid Dynamics.\r\n", - "tags": [ - "NASA", - "ARC", - "U.S. and Foreign Release", - "Design and Integration Tools" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Porous material Analysis Toolbox (PATO) is a modular analysis platform for multiphase porous reactive materials. It can be run as a simple Fourier heat transfer code or include more advanced features as internal decomposition (pyrolysis, vaporization), gas-gas and gas-solid chemical interactions (combustion, cracking, coking), gas species transport (convection, diffusion), and solid morphology evolutions (internal density changes, surface ablation).\r\nPATO is implemented as a C++ top level module of the open source (GNU GPL) computational fluid dynamics software program OpenFOAM. This offering is not approved or endorsed by OpenCFD Limited, the producer of the OpenFOAM software and owner of the OPENFOAM and OpenCFD trademarks. PATO also uses the open source (GNU LGPL) thermodynamics, transport, and chemistry library Mutation++ produced by the von Karman Institute for Fluid Dynamics.\r\n", "identifier": "ARC-16680-1", - "repositoryURL": "https://software.nasa.gov/software/ARC-16680-1", + "laborHours": 0, + "name": "Porous Material Analysis Toolbox (PATO) Based on OpenFoam", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/ARC-16680-1", + "tags": [ + "NASA", + "ARC", + "U.S. and Foreign Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60e8" }, - "name": "Half-Cycle Crack Growth", - "description": "This NASA-developed software program predicts the operational flight life of critical aero-structural components. The tool offers a reliable method for calculating theoretical fatigue crack growths that could lead to catastrophic structural component failures. The program builds upon and integrates Armstrong's proven half-cycle and closed-form aging theories and is especially accurate because it considers every half-cycle of loading spectra for specific structural components. The program works by reading test data files and determining maximum and minimum loads of each half-cycle of random loading spectra in order to calculate theoretical crack growth. The innovation is an improvement on traditional prediction software (and in particular on visual inspections) because it considers mini-amplitude stress loading and half-cycles based on the duty cycle of a particular component or structure.", - "tags": [ - "NASA", - "DFRC", - "General Public Release", - "Structures and Mechanisms" - ], "contact": { "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, - "organization": "DFRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This NASA-developed software program predicts the operational flight life of critical aero-structural components. The tool offers a reliable method for calculating theoretical fatigue crack growths that could lead to catastrophic structural component failures. The program builds upon and integrates Armstrong's proven half-cycle and closed-form aging theories and is especially accurate because it considers every half-cycle of loading spectra for specific structural components. The program works by reading test data files and determining maximum and minimum loads of each half-cycle of random loading spectra in order to calculate theoretical crack growth. The innovation is an improvement on traditional prediction software (and in particular on visual inspections) because it considers mini-amplitude stress loading and half-cycles based on the duty cycle of a particular component or structure.", "identifier": "DRC-010-044", - "repositoryURL": "https://software.nasa.gov/software/DRC-010-044", + "laborHours": 0, + "name": "Half-Cycle Crack Growth", + "organization": "DFRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60e9" - }, - "name": "Quad channel Transport Class Model Simulation (Quad TCM)", - "description": "The Quad TCM is a non-proprietary, non-sensitive aircraft Simulink () model derived from Langley Research Center's Transport Class Model (TCM). The Quad TCM is a flight control system (FCS) oriented simulation with multi-channel (FCS) components, including flight control computers (FCCs), sensors, actuators, and interconnect. The models for the components are the original TCM components with modifications to account for the multichannel nature, to allow for replacement with like components, and to enable test and evaluation. ", + "repositoryURL": "https://software.nasa.gov/software/DRC-010-044", "tags": [ "NASA", "DFRC", "General Public Release", - "Aeronautics" - ], + "Structures and Mechanisms" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60e9" + }, "contact": { "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, - "organization": "DFRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-14" + }, + "description": "The Quad TCM is a non-proprietary, non-sensitive aircraft Simulink () model derived from Langley Research Center's Transport Class Model (TCM). The Quad TCM is a flight control system (FCS) oriented simulation with multi-channel (FCS) components, including flight control computers (FCCs), sensors, actuators, and interconnect. The models for the components are the original TCM components with modifications to account for the multichannel nature, to allow for replacement with like components, and to enable test and evaluation. ", "identifier": "DRC-014-004", - "repositoryURL": "https://software.nasa.gov/software/DRC-014-004", + "laborHours": 0, + "name": "Quad channel Transport Class Model Simulation (Quad TCM)", + "organization": "DFRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-14" - } + "repositoryURL": "https://software.nasa.gov/software/DRC-014-004", + "tags": [ + "NASA", + "DFRC", + "General Public Release", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60ea" }, - "name": "Object-Oriented Optimization Tool 2.0", - "description": "Supporting the Aeronautics Research Mission Directorate guidelines, the NASA Armstrong Flight Research Center (AFRC) has developed an O3 tool to leverage existing tools and practices, and allows the easy integration and adoption of new state-of-the-art software. This object-oriented framework will integrate the analysis codes for multiple disciplines, instead of relying on one code to perform the analysis for all disciplines. Optimization can then take place within each discipline module, or in a loop between the central executive module and the discipline modules, or both. This version uses a public-domain optimization code, Automated Design Synthesis (ADS) version 1.10, instead of using the DOT code. We tested this updated version using couple of sample test problems. The public domain code, ADS version 1.10, was developed by Vanderplaats using NASAs budget around 1984.", - "tags": [ - "NASA", - "DFRC", - "General Public Release", - "Structures and Mechanisms" - ], "contact": { "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, - "organization": "DFRC", - "identifier": "DRC-014-024", - "repositoryURL": "https://software.nasa.gov/software/DRC-014-024", - "permissions": { - "licenses": [ - { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2016-3-14" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60eb" - }, - "name": "Chapter 10 Tools", - "description": "The Dryden Aeronautical Test Range (DATR) staff at the NASA Armstrong Flight Research Center has developed a software toolkit called Chapter 10 Tools in response to challenges posed by post-flight processing data files originating from various on-board digital recorders that follow the Range Commanders Council Inter-Range Instrumentation Group (IRIG) 106 Chapter 10 Digital Recording Standard but use differing interpretations of the Standard. This software toolkit will read the data files regardless of the vendor implementation of the source recorder, display data, identify and correct errors, and produce a data file that can be successfully processed post-flight.", - "tags": [ - "NASA", - "DFRC", - "U.S. Release Only", - "Data and Image Processing" - ], - "contact": { - "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, + "description": "Supporting the Aeronautics Research Mission Directorate guidelines, the NASA Armstrong Flight Research Center (AFRC) has developed an O3 tool to leverage existing tools and practices, and allows the easy integration and adoption of new state-of-the-art software. This object-oriented framework will integrate the analysis codes for multiple disciplines, instead of relying on one code to perform the analysis for all disciplines. Optimization can then take place within each discipline module, or in a loop between the central executive module and the discipline modules, or both. This version uses a public-domain optimization code, Automated Design Synthesis (ADS) version 1.10, instead of using the DOT code. We tested this updated version using couple of sample test problems. The public domain code, ADS version 1.10, was developed by Vanderplaats using NASAs budget around 1984.", + "identifier": "DRC-014-024", + "laborHours": 0, + "name": "Object-Oriented Optimization Tool 2.0", "organization": "DFRC", - "identifier": "DRC-014-009", - "repositoryURL": "https://software.nasa.gov/software/DRC-014-009", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-14" - } + "repositoryURL": "https://software.nasa.gov/software/DRC-014-024", + "tags": [ + "NASA", + "DFRC", + "General Public Release", + "Structures and Mechanisms" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb60ec" + "$oid": "5a3a9b78da833f1e40fb60ed" }, - "name": "DthData Armstrong Time-History Software Utility", - "description": "A standalone command-line-driven utility program, DthData processes time-history format data files generated by the Armstrong Core Simulation Software.", - "tags": [ - "NASA", - "DFRC", - "U.S. and Foreign Release", - "Data and Image Processing" - ], "contact": { "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Quick Plot is a general-purpose tool used to plot Armstrong time-history data files and data files in the MATLAB format. The graphical user interface allows commands to be scripted and read from an input script file; input signals can be modified using algebraic expressions.", + "identifier": "DRC-012-022", + "laborHours": 0, + "name": "Quick Plot General-Purpose Plotting Tool", "organization": "DFRC", - "identifier": "DRC-012-024", - "repositoryURL": "https://software.nasa.gov/software/DRC-012-024", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60ed" + "usageType": "governmentWideReuse" }, - "name": "Quick Plot General-Purpose Plotting Tool", - "description": "Quick Plot is a general-purpose tool used to plot Armstrong time-history data files and data files in the MATLAB format. The graphical user interface allows commands to be scripted and read from an input script file; input signals can be modified using algebraic expressions.", + "repositoryURL": "https://software.nasa.gov/software/DRC-012-022", "tags": [ "NASA", "DFRC", "U.S. and Foreign Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60ec" + }, "contact": { "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "A standalone command-line-driven utility program, DthData processes time-history format data files generated by the Armstrong Core Simulation Software.", + "identifier": "DRC-012-024", + "laborHours": 0, + "name": "DthData Armstrong Time-History Software Utility", "organization": "DFRC", - "identifier": "DRC-012-022", - "repositoryURL": "https://software.nasa.gov/software/DRC-012-022", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60ee" + "usageType": "governmentWideReuse" }, - "name": "DthDiff Armstrong Time-History Difference Software Utility", - "description": "A standalone command-line-driven utility program, DthDiff is used to compare two Armstrong time-history format data files generated by the Armstrong Core Simulation Software.", + "repositoryURL": "https://software.nasa.gov/software/DRC-012-024", "tags": [ "NASA", "DFRC", "U.S. and Foreign Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60eb" + }, "contact": { "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-14" + }, + "description": "The Dryden Aeronautical Test Range (DATR) staff at the NASA Armstrong Flight Research Center has developed a software toolkit called Chapter 10 Tools in response to challenges posed by post-flight processing data files originating from various on-board digital recorders that follow the Range Commanders Council Inter-Range Instrumentation Group (IRIG) 106 Chapter 10 Digital Recording Standard but use differing interpretations of the Standard. This software toolkit will read the data files regardless of the vendor implementation of the source recorder, display data, identify and correct errors, and produce a data file that can be successfully processed post-flight.", + "identifier": "DRC-014-009", + "laborHours": 0, + "name": "Chapter 10 Tools", "organization": "DFRC", - "identifier": "DRC-012-025", - "repositoryURL": "https://software.nasa.gov/software/DRC-012-025", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/DRC-014-009", + "tags": [ + "NASA", + "DFRC", + "U.S. Release Only", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60ef" }, - "name": "Blackbody VBA Excel Functions", - "description": "In the analysis of radiation, it is helpful to be able to predict the heat transfer rate and the spectral distribution of the emitted energy. Presented here is a set of routines written in Microsoft Visual Basic for Applications (VBA) and incorporating functions specific to Microsoft Excel that are useful for predicting the radiative behavior of heated surfaces. These routines include functions for calculating important engineering quantities of primary importance to engineers and scientists such as radiative flux and spectral distributions. In addition, the routines also provide the capability to use such information to determine surface temperatures from spectral intensities and for calculating the sensitivity of these temperature measurements to unknowns in the input parameters.", - "tags": [ - "NASA", - "DFRC", - "Open Source", - "Materials and Processes" - ], "contact": { "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, - "organization": "DFRC", - "identifier": "DRC-015-017", - "repositoryURL": "https://software.nasa.gov/software/DRC-015-017", - "permissions": { - "licenses": [ - { - "URL": "https://opensource.org/licenses/NASA-1.3", - "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2016-3-14" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60f0" - }, - "name": "EZASE Easy Aeroservoelasticity", - "description": "This is an easy-to-use MATLAB based finite element modeling and simulation tool for aeroservoelastic analysis of rectangular wings with trailing-edge control surfaces. It includes a tutorial on structural finite element modeling (FEM_Tutorial.m) using elements such as 12 DOF plates and 6 DOF beams. The aero tutorial (DLM_VLM_Tutorial.m) shows how to code doublet lattice and vortex lattice, with symmetry capability. Together the finite element and aero tutorials can be used to compare to experimental studies such as ground vibration testing, cantilever beam analysis, as well as wind tunnel testing. The primary code, EZASE.m, links structures and aero together in a commented way to produce a wing in flutter which can be controlled. The wing may include control surfaces or they can be excluded. A state space model with control surface inputs and accelerometer outputs can be produced. This model is used to design a PID control system and is tested using margin studies and pole plots. Other visualization methods such as V-g plots determined using the K-method are also included. The code is commented for Graduate and Undergraduate students of aeroservoelasticity who want to know the basic concepts of medium fidelity aeroservoelastic modeling. Not all methods are coded to industry standards. But students of the field including practicing engineers may find it useful for basic understanding; theoretical manuals for industry level codes tend to leave out many of the coding details. All of the details of the code are open sourced here and most of it is referenced at the top of the file to its source paper or book section. Two AIAA publications with one focusing on V&V with experimental wind tunnel test and ground vibration test data are also included.", - "tags": [ - "NASA", - "DFRC", - "Open Source", - "Aeronautics" - ], - "contact": { - "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, + "description": "In the analysis of radiation, it is helpful to be able to predict the heat transfer rate and the spectral distribution of the emitted energy. Presented here is a set of routines written in Microsoft Visual Basic for Applications (VBA) and incorporating functions specific to Microsoft Excel that are useful for predicting the radiative behavior of heated surfaces. These routines include functions for calculating important engineering quantities of primary importance to engineers and scientists such as radiative flux and spectral distributions. In addition, the routines also provide the capability to use such information to determine surface temperatures from spectral intensities and for calculating the sensitivity of these temperature measurements to unknowns in the input parameters.", + "identifier": "DRC-015-017", + "laborHours": 0, + "name": "Blackbody VBA Excel Functions", "organization": "DFRC", - "identifier": "DRC-014-036", - "repositoryURL": "https://software.nasa.gov/software/DRC-014-036", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-12" - } + "repositoryURL": "https://software.nasa.gov/software/DRC-015-017", + "tags": [ + "NASA", + "DFRC", + "Open Source", + "Materials and Processes" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb60f1" + "$oid": "5a3a9b78da833f1e40fb60ee" }, - "name": "Structural Analysis Routines (STARS)", - "description": "Structural Analysis Routines (STARS) is an efficient, cost-effective, and unique computer program that analyzes a variety of practical engineering problems. The software is a fully integrated, multidisciplinary, finite-element-based, graphic-oriented analysis tool that combines individual modules to solve complex engineering problems. STARS can be used for a range of applications, including structural analysis, heat transfer, linear aerodynamics, and computational fluid dynamics (CFD) as well as coupled linear and CFD-based (aeroelastic, aeroacoustic, and aerothermoelastic) acoustics and aeroservoelastic analysis. Because of the tool's highly integrated nature, it has broad application across many engineering disciplines.", - "tags": [ - "NASA", - "DFRC", - "U.S. and Foreign Release", - "Data and Image Processing" - ], "contact": { "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "A standalone command-line-driven utility program, DthDiff is used to compare two Armstrong time-history format data files generated by the Armstrong Core Simulation Software.", + "identifier": "DRC-012-025", + "laborHours": 0, + "name": "DthDiff Armstrong Time-History Difference Software Utility", "organization": "DFRC", - "identifier": "DRC-011-003", - "repositoryURL": "https://software.nasa.gov/software/DRC-011-003", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/DRC-012-025", + "tags": [ + "NASA", + "DFRC", + "U.S. and Foreign Release", + "Data and Image Processing" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb60f2" + "$oid": "5a3a9b78da833f1e40fb60f4" }, - "name": "Toolbox for the Modeling and Analysis of Thermodynamic Systems (T-MATS)", - "description": "T-MATS is open source software code. The Toolbox for the Modeling and Analysis of Thermodynamic Systems (T-MATS) is a Simulink toolbox intended for use in the modeling and simulation of thermodynamic systems and their controls. T-MATS contains generic thermodynamic and controls components that may be combined with a variable input iterative solver and optimization algorithm to create complex systems to meet the needs of a developer. Developement of this tool was completed on behalf of the NASA Aviation Safety Program's Vehicle Systems Safety Technologies (VSST) project located at the Glenn Research Center in Cleveland, OH. ", - "tags": [ - "NASA", - "GRC", - "Open Source", - "Aeronautics" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "ACD is an analysis code used for the aerodynamic design of multistage axial-flow compressors. The technology provides velocity diagrams on the streamlines at the blade-row edges. Blade elements are defined by centerline curve and thickness distribution, and blade-element inlet and outlet angles are established through empirical incidence and deviation-angle adjustments to the velocity diagrams. Blade elements can be stacked to provide the full blade design.", + "identifier": "LEW-17448-1", + "laborHours": 0, + "name": "ACD Aerodynamic Design of Multistage Axial-Flow Compressors", "organization": "GRC", - "identifier": "LEW-19165-1", - "repositoryURL": "https://github.com/nasa/T-MATS", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/T-MATS/blob/master/LICENSE.txt", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-10-30" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-17448-1", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "Propulsion" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb60f3" + "$oid": "5a3a9b78da833f1e40fb60f0" }, - "name": "Tool for Turbine Engine Closed-loop Transient Analysis (TTECTrA)", - "description": "Tool for Turbine Engine Closed-loop Transient Analysis (TTECTrA)\r\n\r\nThe Tool for Turbine Engine Closed-loop Transient Analysis (TTECTrA) is a tool, developed in the Mathworks(R) Matlab/Simulink enviornment, intended to extend systems analysis by providing an estimate of the transient performance/capability of a conceptual engine design. The TTECTrA tool is capable of designing a basic turbofan engine controller, with transient protection, based on the user's engine model and constraints. TTECTrA is built in the Mathworks Matlab/Simulink environment and relies on the Matlab Control Systems Toolbox to provide additional functionality and streamline the control design process.", - "tags": [ - "NASA", - "GRC", - "Open Source", - "Aeronautics" - ], "contact": { - "email": "grc-sra-team@mail.nasa.gov" + "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, - "organization": "GRC", - "identifier": "LEW-19177-1", - "repositoryURL": "https://github.com/nasa/TTECTrA", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-12" + }, + "description": "This is an easy-to-use MATLAB based finite element modeling and simulation tool for aeroservoelastic analysis of rectangular wings with trailing-edge control surfaces. It includes a tutorial on structural finite element modeling (FEM_Tutorial.m) using elements such as 12 DOF plates and 6 DOF beams. The aero tutorial (DLM_VLM_Tutorial.m) shows how to code doublet lattice and vortex lattice, with symmetry capability. Together the finite element and aero tutorials can be used to compare to experimental studies such as ground vibration testing, cantilever beam analysis, as well as wind tunnel testing. The primary code, EZASE.m, links structures and aero together in a commented way to produce a wing in flutter which can be controlled. The wing may include control surfaces or they can be excluded. A state space model with control surface inputs and accelerometer outputs can be produced. This model is used to design a PID control system and is tested using margin studies and pole plots. Other visualization methods such as V-g plots determined using the K-method are also included. The code is commented for Graduate and Undergraduate students of aeroservoelasticity who want to know the basic concepts of medium fidelity aeroservoelastic modeling. Not all methods are coded to industry standards. But students of the field including practicing engineers may find it useful for basic understanding; theoretical manuals for industry level codes tend to leave out many of the coding details. All of the details of the code are open sourced here and most of it is referenced at the top of the file to its source paper or book section. Two AIAA publications with one focusing on V&V with experimental wind tunnel test and ground vibration test data are also included.", + "identifier": "DRC-014-036", + "laborHours": 0, + "name": "EZASE Easy Aeroservoelasticity", + "organization": "DFRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-10-30" - } + "repositoryURL": "https://software.nasa.gov/software/DRC-014-036", + "tags": [ + "NASA", + "DFRC", + "Open Source", + "Aeronautics" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb60f4" + "$oid": "5a3a9b78da833f1e40fb60f1" }, - "name": "ACD Aerodynamic Design of Multistage Axial-Flow Compressors", - "description": "ACD is an analysis code used for the aerodynamic design of multistage axial-flow compressors. The technology provides velocity diagrams on the streamlines at the blade-row edges. Blade elements are defined by centerline curve and thickness distribution, and blade-element inlet and outlet angles are established through empirical incidence and deviation-angle adjustments to the velocity diagrams. Blade elements can be stacked to provide the full blade design.", - "tags": [ - "NASA", - "GRC", - "U.S. Release Only", - "Propulsion" - ], "contact": { - "email": "grc-sra-team@mail.nasa.gov" + "email": "afrc-ipo-softwarecatalogue@mail.nasa.gov" }, - "organization": "GRC", - "identifier": "LEW-17448-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17448-1", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Structural Analysis Routines (STARS) is an efficient, cost-effective, and unique computer program that analyzes a variety of practical engineering problems. The software is a fully integrated, multidisciplinary, finite-element-based, graphic-oriented analysis tool that combines individual modules to solve complex engineering problems. STARS can be used for a range of applications, including structural analysis, heat transfer, linear aerodynamics, and computational fluid dynamics (CFD) as well as coupled linear and CFD-based (aeroelastic, aeroacoustic, and aerothermoelastic) acoustics and aeroservoelastic analysis. Because of the tool's highly integrated nature, it has broad application across many engineering disciplines.", + "identifier": "DRC-011-003", + "laborHours": 0, + "name": "Structural Analysis Routines (STARS)", + "organization": "DFRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/DRC-011-003", + "tags": [ + "NASA", + "DFRC", + "U.S. and Foreign Release", + "Data and Image Processing" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb60f5" + "$oid": "5a3a9b78da833f1e40fb60f2" }, - "name": "Software For System For Controlling A Magnetically Levitated Rotor", - "description": "FATMaCC (Five-Axis, Three-Magnetic-Bearing Control Code), is a versatile control code that possesses many desirable features that were not available in previous in-house controllers. 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The rotation of the force vector is achieved manually by using key press or automatically by engaging the \" one-per-revolution\" feature. Rotor rigid body modes can be excited by using the excitation module. Depending on the polarities of the excitation signal in each radial bearing, the bounce or tilt mode will be excited.\r\n\r\nmagnetic bearings are an enabling technology for rotating devices with extremely high rotational speeds, such as flywheel energy storage systems being proposed for the International Space Station. In addition these bearings have great potential for conventional gas turbine engines especially because the control algorithms can compensate for an event such as loss of a blade that causes rotor imbalance.", - "tags": [ - "NASA", - "GRC", - "General Public Release", - "Design and Integration Tools" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-10-30" + }, + "description": "T-MATS is open source software code. The Toolbox for the Modeling and Analysis of Thermodynamic Systems (T-MATS) is a Simulink toolbox intended for use in the modeling and simulation of thermodynamic systems and their controls. T-MATS contains generic thermodynamic and controls components that may be combined with a variable input iterative solver and optimization algorithm to create complex systems to meet the needs of a developer. Developement of this tool was completed on behalf of the NASA Aviation Safety Program's Vehicle Systems Safety Technologies (VSST) project located at the Glenn Research Center in Cleveland, OH. ", + "identifier": "LEW-19165-1", + "laborHours": 0, + "name": "Toolbox for the Modeling and Analysis of Thermodynamic Systems (T-MATS)", "organization": "GRC", - "identifier": "LEW-17293-2", - "repositoryURL": "https://software.nasa.gov/software/LEW-17293-2", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" + "URL": "https://github.com/nasa/T-MATS/blob/master/LICENSE.txt", + "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/nasa/T-MATS", + "tags": [ + "NASA", + "GRC", + "Open Source", + "Aeronautics" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60f3" + }, + "contact": { + "email": "grc-sra-team@mail.nasa.gov" }, - "laborHours": 0, "date": { "created": "", "lastModified": "", - "metadataLastUpdated": "2015-9-9" - } + "metadataLastUpdated": "2014-10-30" + }, + "description": "Tool for Turbine Engine Closed-loop Transient Analysis (TTECTrA)\r\n\r\nThe Tool for Turbine Engine Closed-loop Transient Analysis (TTECTrA) is a tool, developed in the Mathworks(R) Matlab/Simulink enviornment, intended to extend systems analysis by providing an estimate of the transient performance/capability of a conceptual engine design. The TTECTrA tool is capable of designing a basic turbofan engine controller, with transient protection, based on the user's engine model and constraints. TTECTrA is built in the Mathworks Matlab/Simulink environment and relies on the Matlab Control Systems Toolbox to provide additional functionality and streamline the control design process.", + "identifier": "LEW-19177-1", + "laborHours": 0, + "name": "Tool for Turbine Engine Closed-loop Transient Analysis (TTECTrA)", + "organization": "GRC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://opensource.org/licenses/NASA-1.3", + "name": "NASA v3" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/nasa/TTECTrA", + "tags": [ + "NASA", + "GRC", + "Open Source", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60f6" }, - "name": "CSPAN Axial-Flow Compressor Conceptual Design Code", - "description": "This span-line analysis technology uses isentropic simple radial equilibrium to determine a flow path.", - "tags": [ - "NASA", - "GRC", - "U.S. Government Purpose Release", - "Propulsion" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This span-line analysis technology uses isentropic simple radial equilibrium to determine a flow path.", "identifier": "LEW-16074-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-16074-1", + "laborHours": 0, + "name": "CSPAN Axial-Flow Compressor Conceptual Design Code", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-16074-1", + "tags": [ + "NASA", + "GRC", + "U.S. Government Purpose Release", + "Propulsion" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60f7" }, - "name": "Command, Control, Communications, and Intelligence (C3I)Delay/Disruption-Tolerant (DTN) Networking Software", - 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} - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60f8" + "usageType": "governmentWideReuse" }, - "name": "Command, Control, Communications, and Intelligence (C3I) Networking Software", - "description": "This implementation of the Constellation Program's C3I software has provided an environment for the prototype testing of a variety of networking protocols.", + "repositoryURL": "https://software.nasa.gov/software/LEW-18493-1", "tags": [ "NASA", "GRC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60f8" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This implementation of the Constellation Program's C3I software has provided an environment for the prototype testing of a variety of networking protocols.", "identifier": "LEW-18494-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-18494-1", + "laborHours": 0, + "name": "Command, Control, Communications, and Intelligence (C3I) Networking Software", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - 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In addition these bearings have great potential for conventional gas turbine engines especially because the control algorithms can compensate for an event such as loss of a blade that causes rotor imbalance.", + "identifier": "LEW-17293-2", + "laborHours": 0, + "name": "Software For System For Controlling A Magnetically Levitated Rotor", "organization": "GRC", - "identifier": "LEW-18495-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-18495-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-17293-2", + "tags": [ + "NASA", + "GRC", + "General Public Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60fa" }, - "name": "Axial-Flow Turbine Off-Design (AXOD) Performance", - "description": "AXOD computes the flow and efficiency of multistage axial-flow turbines as functions of speed and pressure ratio. 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", "identifier": "LEW-16323-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-16323-1", + "laborHours": 0, + "name": "Axial-Flow Turbine Off-Design (AXOD) Performance", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-16323-1", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "Propulsion" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60fb" }, - "name": "Computational Fluid Dynamics (CFD) Seal Analysis Code", + "contact": { + "email": "grc-sra-team@mail.nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, "description": "This technology is a computer program designed for the study of fluid dynamic forces.", + "identifier": "LEW-16582-1", + "laborHours": 0, + "name": "Computational Fluid Dynamics (CFD) Seal Analysis Code", + "organization": "GRC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/LEW-16582-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "Propulsion" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60f9" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This implementation of the Constellation Program's C3I software has provided an environment for the prototype testing of a variety of voice exchange components.", + "identifier": "LEW-18495-1", + "laborHours": 0, + "name": "Command, Control, Communications, and Intelligence (C3I) Voice Exchange Software", "organization": "GRC", - "identifier": "LEW-16582-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-16582-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-18495-1", + "tags": [ + "NASA", + "GRC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60fc" }, - "name": "BLAYER", - "description": "BLAYER is a Fortran program used for calculating compressible laminar and turbulent boundary layers in arbitrary pressure gradients.", - "tags": [ - "NASA", - "GRC", - "U.S. Release Only", - "Propulsion" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "BLAYER is a Fortran program used for calculating compressible laminar and turbulent boundary layers in arbitrary pressure gradients.", "identifier": "LEW-16851-4", - "repositoryURL": "https://software.nasa.gov/software/LEW-16851-4", + "laborHours": 0, + "name": "BLAYER", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-16851-4", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "Propulsion" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb60fd" }, - "name": "GRAPE.107", - "description": "GRAPE is a two-dimensional elliptic grid generation code to be used with isolated airfoils. 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Correlations account for the following types of loss: inlet guide vane, impeller incidence, shock, skin friction, blade loading, trailing edge, clearance, vaneless and vaned diffuser friction, recirculation, and disk friction.", + "identifier": "LEW-17450-1", + "laborHours": 0, + "name": "Centrifugal Off-Design Performance (CCODP) Compressor", "organization": "GRC", - "identifier": "LEW-17052-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17052-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb60ff" - }, - "name": "Centrifugal Off-Design Performance (CCODP) Compressor", - "description": "CCODP is a one-dimensional off-design performance prediction code used for centrifugal compressors. Correlations account for the following types of loss: inlet guide vane, impeller incidence, shock, skin friction, blade loading, trailing edge, clearance, vaneless and vaned diffuser friction, recirculation, and disk friction.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17450-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "Propulsion" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb60fe" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "CSTEM is a UNIX executable for coupled structural, thermal, acoustic, and electromagnetic analysis and optimization.", + "identifier": "LEW-17052-1", + "laborHours": 0, + "name": "Coupled Structural, Thermal, Acoustic, Electromagnetic (CSTEM) Analysis", "organization": "GRC", - "identifier": "LEW-17450-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17450-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6100" - }, - "name": "CMPSTK Multi-Stage Axial-Flow Compressor Off-Design", - "description": "Developed for studying variable geometry effects at the conceptual design level, CMPSTK is a combination of the STGSTK and CMPGEN computer codes. STGSTK predicts multistage axial-flow compressor off-design performance using mean-line stage stacking, and CMPGEN estimates design-speed flow range and efficiency ratios.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17052-1", "tags": [ "NASA", "GRC", - "U.S. Release Only", - "Propulsion" - ], + "U.S. Release Only", + "System Testing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6100" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Developed for studying variable geometry effects at the conceptual design level, CMPSTK is a combination of the STGSTK and CMPGEN computer codes. 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Both atmospheric parameters (i.e., temperature, pressure, and velocity) and meteorological parameters (i.e., liquid water content, droplet diameter, and relative humidity) are used to determine the shape of the ice accretion.", + "repositoryURL": "https://software.nasa.gov/software/LEW-18343-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb610e" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "CT-CURS is a dedicated unwrapping/re-slicing software tool for computing tomography data from cylindrical and partially cylindrical structures. The technology can be used as a complement to vendor software or can be utilized as a completely standalone visualization program.", + "identifier": "LEW-19031-1", + "laborHours": 0, + "name": "Computed Tomography Cylinder Unwrapper/Re-slicer Software (CT-CURS), Version 2", "organization": "GRC", - "identifier": "LEW-18573-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-18573-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb610e" + "usageType": "governmentWideReuse" }, - "name": "Computed Tomography Cylinder Unwrapper/Re-slicer Software (CT-CURS), Version 2", - "description": "CT-CURS is a dedicated unwrapping/re-slicing software tool for computing tomography data from cylindrical and partially cylindrical structures. The technology can be used as a complement to vendor software or can be utilized as a completely standalone visualization program.", + "repositoryURL": "https://software.nasa.gov/software/LEW-19031-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "Propulsion" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb610d" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "LEWICE contains an analytical ice accretion model that evaluates the freezing process thermodynamics that occur when super-cooled droplets impinge on a body. Both atmospheric parameters (i.e., temperature, pressure, and velocity) and meteorological parameters (i.e., liquid water content, droplet diameter, and relative humidity) are used to determine the shape of the ice accretion.", + "identifier": "LEW-18573-1", + "laborHours": 0, + "name": "LEWICE 3.2.2 Ice Accretion Software", "organization": "GRC", - "identifier": "LEW-19031-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-19031-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-18573-1", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb610f" }, - "name": "Acoustic Emission Analysis Applet (AEAA) Software", - "description": "Post-processing software has been developed at NASA that is tailored for novel analysis of composite pressure vessels acoustic emission (AE) data. 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This technology is a NASA Glenn-developed software application that supports fault management (FM) by performing testability analyses on the fault propagation model of a given system. The Extended Testability Analysis (ETA) Tool processes a diagnostic model developed from a commercial software package called TEAMS Designer using a defined set of modeling conventiuons and practices. ETA Tool can provide an assessment of the modeled system based on diagnostic metrics of detectability and failure isolation. The program can provide assessment of a system's detection coverage, test utilization, failure isolation at the root cause or at the component levels, generate a FMEA Report, perform sensor sensitivity studies and provide a trace-mapping of failure modes to higher level system effects. ETA Tool generates reports from each selected analysis option in both an HTML and XML format to enable user access in either standard web browsers or loadable into an Microsoft Excel workbook for review/editing.", - "tags": [ - "NASA", - "GRC", - "U.S. Release Only", - "Design and Integration Tools" - ], - "contact": { - "email": "grc-sra-team@mail.nasa.gov" }, + "description": "Post-processing software has been developed at NASA that is tailored for novel analysis of composite pressure vessels acoustic emission (AE) data. The software can be used with data acquired from Digital Wave, Inc. and Mistras Group (Physical Acoustics, Inc.) hardware", + "identifier": "LEW-19032-1", + "laborHours": 0, + "name": "Acoustic Emission Analysis Applet (AEAA) Software", "organization": "GRC", - "identifier": "LEW-19241-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-19241-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-5-14" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6111" + "usageType": "governmentWideReuse" }, - "name": "Advanced Ducted Propfan Analysis Code (ADPAC)", - "description": "Developed by the Allison Engine Company under contracts with Glenn Research Center, ADPAC solves tightly coupled internal/external flows through future-concept short-duct turbofan engines.", + "repositoryURL": "https://software.nasa.gov/software/LEW-19032-1", "tags": [ "NASA", "GRC", "U.S. Release Only", - "Propulsion" - ], + "Materials and Processes" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6110" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-5-14" + }, + "description": "This technology disclosure is for the Enhanced Testability Analysis (ETA) Tool V8.0. The version of the ETA Tool is an upgrade of the previous reported ETA Tool (LEW-18795-1). This technology is a NASA Glenn-developed software application that supports fault management (FM) by performing testability analyses on the fault propagation model of a given system. The Extended Testability Analysis (ETA) Tool processes a diagnostic model developed from a commercial software package called TEAMS Designer using a defined set of modeling conventiuons and practices. ETA Tool can provide an assessment of the modeled system based on diagnostic metrics of detectability and failure isolation. The program can provide assessment of a system's detection coverage, test utilization, failure isolation at the root cause or at the component levels, generate a FMEA Report, perform sensor sensitivity studies and provide a trace-mapping of failure modes to higher level system effects. ETA Tool generates reports from each selected analysis option in both an HTML and XML format to enable user access in either standard web browsers or loadable into an Microsoft Excel workbook for review/editing.", + "identifier": "LEW-19241-1", + "laborHours": 0, + "name": "Extended Testability Analysis (ETA) Tool V8.0", "organization": "GRC", - "identifier": "LEW-16768-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-16768-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6112" + "usageType": "governmentWideReuse" }, - "name": "A Comprehensive C++ Controller For A Magnetically Supported Vertical Rotor: Version 1.0", - "description": "FATMaCC (Five-Axis, Three-Magnetic-Bearing Control Code), is a versatile control code that possesses many desirable features that were not available in previous in-house controllers. The ultimate goal in designing this code was to achieve full rotor levitation and control at a loop time of 50 s. Using a 1-GHz processor the code will control a five-axis system in either a decentralized or a more elegant centralized (model control) mode at loop time of 56 s. In addition, it will levitate and control (with only minor modification to the input-output wiring) a two-axis and / or a four-axis system. Stable rotor levitation and control of any of the system mentioned above are accomplished through appropriate key presses to modify parameters, such as stiffness, damping, and bias. A signal generation block provides 11 excitation signals. An excitation signal is then superimposed on the radial bearing x- and y- control signals, thus producing a resultant force vector. By modulating the signals on the bearing x0 and y- axes with a cosine and sine function, respectively, a radial excitation force vector is made to rotate 360 about the bearing geometric center. The rotation of the force vector is achieved manually by using key press or automatically by engaging the \" one-per-revolution\" feature. Rotor rigid body modes can be excited by using the excitation module. Depending on the polarities of the excitation signal in each radial bearing, the bounce or tilt mode will be excited", + "repositoryURL": "https://software.nasa.gov/software/LEW-19241-1", "tags": [ "NASA", "GRC", "U.S. Release Only", - "Propulsion" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6111" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Developed by the Allison Engine Company under contracts with Glenn Research Center, ADPAC solves tightly coupled internal/external flows through future-concept short-duct turbofan engines.", + "identifier": "LEW-16768-1", + "laborHours": 0, + "name": "Advanced Ducted Propfan Analysis Code (ADPAC)", "organization": "GRC", - "identifier": "LEW-17293-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17293-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-9-9" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-16768-1", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "Propulsion" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6113" }, - "name": "Radial Turbine Off-Design (RTOD) Performance Code", - "description": "The RTOD code predicts the performance of a single-stage radial-inflow turbine (with either radial or swept rotor blades) as a function of pressure ratio, speed, and stator setting.", - "tags": [ - "NASA", - "GRC", - "U.S. Release Only", - "System Testing" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The RTOD code predicts the performance of a single-stage radial-inflow turbine (with either radial or swept rotor blades) as a function of pressure ratio, speed, and stator setting.", "identifier": "LEW-14060-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-14060-1", + "laborHours": 0, + "name": "Radial Turbine Off-Design (RTOD) Performance Code", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6114" + "usageType": "governmentWideReuse" }, - "name": "MERIDLN", - "description": "MERIDLN is a Fortran program for calculating velocities/streamlines of axial-, radial-, or mixed-flow turbo-machinery or annular ducts on the hub-shroud mid-channel stream surface.", + "repositoryURL": "https://software.nasa.gov/software/LEW-14060-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6115" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "PCSTAGE is simple computational simulation of multi-stage turbo-machinery blade-to-blade flows on a surface of revolution.", + "identifier": "LEW-16325-1", + "laborHours": 0, + "name": "PCSTAGE", "organization": "GRC", - "identifier": "LEW-16369-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-16369-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6115" + "usageType": "governmentWideReuse" }, - "name": "PCSTAGE", - "description": "PCSTAGE is simple computational simulation of multi-stage turbo-machinery blade-to-blade flows on a surface of revolution.", + "repositoryURL": "https://software.nasa.gov/software/LEW-16325-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6112" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-9-9" + }, + "description": "FATMaCC (Five-Axis, Three-Magnetic-Bearing Control Code), is a versatile control code that possesses many desirable features that were not available in previous in-house controllers. The ultimate goal in designing this code was to achieve full rotor levitation and control at a loop time of 50 s. Using a 1-GHz processor the code will control a five-axis system in either a decentralized or a more elegant centralized (model control) mode at loop time of 56 s. In addition, it will levitate and control (with only minor modification to the input-output wiring) a two-axis and / or a four-axis system. Stable rotor levitation and control of any of the system mentioned above are accomplished through appropriate key presses to modify parameters, such as stiffness, damping, and bias. A signal generation block provides 11 excitation signals. An excitation signal is then superimposed on the radial bearing x- and y- control signals, thus producing a resultant force vector. By modulating the signals on the bearing x0 and y- axes with a cosine and sine function, respectively, a radial excitation force vector is made to rotate 360 about the bearing geometric center. The rotation of the force vector is achieved manually by using key press or automatically by engaging the \" one-per-revolution\" feature. Rotor rigid body modes can be excited by using the excitation module. Depending on the polarities of the excitation signal in each radial bearing, the bounce or tilt mode will be excited", + "identifier": "LEW-17293-1", + "laborHours": 0, + "name": "A Comprehensive C++ Controller For A Magnetically Supported Vertical Rotor: Version 1.0", "organization": "GRC", - "identifier": "LEW-16325-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-16325-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6116" + "usageType": "governmentWideReuse" }, - "name": "RVCQ3D.406", - "description": "RVCQ3D is a two-dimensional computational fluid dynamics (CFD) analysis code for turbo-machinery (e.g., compressors, turbines, and mixed-flow machines). The technology solves Navier-Stokes equations on a blade-to-blade surface of revolution using explicit finite-difference techniques. Three differencing schemes are available: central differences, AUSM+, and H-CUSP. Three turbulence models are also available: Baldwin-Lomax, Cebeci-Smith, and Wilcox 2006 K-Omega.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17293-1", "tags": [ "NASA", "GRC", "U.S. Release Only", - "System Testing" - ], + "Propulsion" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6114" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "MERIDLN is a Fortran program for calculating velocities/streamlines of axial-, radial-, or mixed-flow turbo-machinery or annular ducts on the hub-shroud mid-channel stream surface.", + "identifier": "LEW-16369-1", + "laborHours": 0, + "name": "MERIDLN", "organization": "GRC", - "identifier": "LEW-16851-2", - "repositoryURL": "https://software.nasa.gov/software/LEW-16851-2", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6117" + "usageType": "governmentWideReuse" }, - "name": "MGBK Jet Noise Prediction Code", - "description": "The physics-based MGBK code predicts subsonic and low-supersonic jet mixing noise and shock noise. Predictions are in the form of far-field sound pressure level (SPL) and frequency spectra on an arc or a sideline.", + "repositoryURL": "https://software.nasa.gov/software/LEW-16369-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6116" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "RVCQ3D is a two-dimensional computational fluid dynamics (CFD) analysis code for turbo-machinery (e.g., compressors, turbines, and mixed-flow machines). The technology solves Navier-Stokes equations on a blade-to-blade surface of revolution using explicit finite-difference techniques. Three differencing schemes are available: central differences, AUSM+, and H-CUSP. Three turbulence models are also available: Baldwin-Lomax, Cebeci-Smith, and Wilcox 2006 K-Omega.", + "identifier": "LEW-16851-2", + "laborHours": 0, + "name": "RVCQ3D.406", "organization": "GRC", - "identifier": "LEW-17062-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17062-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6118" + "usageType": "governmentWideReuse" }, - "name": "Quick Charge-Coupled Device (CCD) Design Code for Centrifugal Compressor", - "description": "This NASA-developed technology provides a rapid preliminary assessment of the design geometry and the design-point performance of centrifugal compressors. The analysis is based on a one-dimensional flow model with correlations for the following losses: inlet guide vane, rotor inlet shock, incidence, clearance, blade loading, skin friction, disk friction, recirculation, vaneless diffuser skin friction, and vaned diffuser. With input performance, the code can operate in design mode; with input geometry, the code can operate in analysis mode.", + "repositoryURL": "https://software.nasa.gov/software/LEW-16851-2", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6117" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The physics-based MGBK code predicts subsonic and low-supersonic jet mixing noise and shock noise. Predictions are in the form of far-field sound pressure level (SPL) and frequency spectra on an arc or a sideline.", + "identifier": "LEW-17062-1", + "laborHours": 0, + "name": "MGBK Jet Noise Prediction Code", "organization": "GRC", - "identifier": "LEW-17452-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17452-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6119" + "usageType": "governmentWideReuse" }, - "name": "Multiple Pure Tone (MPT) Noise Code", - "description": "The MPT noise prediction procedure is based on uniform-rotor computational fluid dynamics (CFD) analysis of BPF tonal content in conjunction with engineering (statistical) correlation information of blade-to-blade non-uniformity effects.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17062-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6119" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The MPT noise prediction procedure is based on uniform-rotor computational fluid dynamics (CFD) analysis of BPF tonal content in conjunction with engineering (statistical) correlation information of blade-to-blade non-uniformity effects.", + "identifier": "LEW-17386-1", + "laborHours": 0, + "name": "Multiple Pure Tone (MPT) Noise Code", "organization": "GRC", - "identifier": "LEW-17386-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17386-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb611a" + "usageType": "governmentWideReuse" }, - "name": "Arbitrary Accuracy Nonlinear Euler Solver", - "description": "This NASA-developed code is the first in the world to solve the nonlinear Euler equations to at least 15th-order accuracy in space and time in two dimensions. It is capable of even higher order accuracy if sufficient computer precision is available.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17386-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6118" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This NASA-developed technology provides a rapid preliminary assessment of the design geometry and the design-point performance of centrifugal compressors. The analysis is based on a one-dimensional flow model with correlations for the following losses: inlet guide vane, rotor inlet shock, incidence, clearance, blade loading, skin friction, disk friction, recirculation, vaneless diffuser skin friction, and vaned diffuser. With input performance, the code can operate in design mode; with input geometry, the code can operate in analysis mode.", + "identifier": "LEW-17452-1", + "laborHours": 0, + "name": "Quick Charge-Coupled Device (CCD) Design Code for Centrifugal Compressor", "organization": "GRC", - "identifier": "LEW-17465-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17465-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb611b" - }, - "name": "RTD Radial-Inflow Turbine Conceptual Design Code", - "description": "The RTD code executes a conceptual design for a single-stage radial-inflow turbine. A mean-line analysis is performed for the locations having constant radius over the blade span. Constant span-fraction sectors are used at the rotor exit. The analysis can account for stator end-wall clearance flow and swept rotor blades. The loss model includes stator and rotor passage losses, trailing-edge losses, vaneless space loss, disk-friction loss, and rotor-exit clearance loss.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17452-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb611a" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This NASA-developed code is the first in the world to solve the nonlinear Euler equations to at least 15th-order accuracy in space and time in two dimensions. It is capable of even higher order accuracy if sufficient computer precision is available.", + "identifier": "LEW-17465-1", + "laborHours": 0, + "name": "Arbitrary Accuracy Nonlinear Euler Solver", "organization": "GRC", - "identifier": "LEW-17453-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17453-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb611c" + "usageType": "governmentWideReuse" }, - "name": "Modular Aero-Propulsion System Simulation (MAPSS)", - "description": "MAPSS is a flexible turbofan engine simulation environment that provides easy access to health, control, and engine parameters through a graphical user interface. The technology can be used as a simulation environment for developing and testing advanced control algorithms, or it can run transient simulations or generate state-space linear models for creating a piecewise linear controller.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17465-1", "tags": [ "NASA", "GRC", "U.S. Release Only", - "Propulsion" - ], + "System Testing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb611b" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The RTD code executes a conceptual design for a single-stage radial-inflow turbine. A mean-line analysis is performed for the locations having constant radius over the blade span. Constant span-fraction sectors are used at the rotor exit. The analysis can account for stator end-wall clearance flow and swept rotor blades. The loss model includes stator and rotor passage losses, trailing-edge losses, vaneless space loss, disk-friction loss, and rotor-exit clearance loss.", + "identifier": "LEW-17453-1", + "laborHours": 0, + "name": "RTD Radial-Inflow Turbine Conceptual Design Code", "organization": "GRC", - "identifier": "LEW-17674-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17674-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb611d" + "usageType": "governmentWideReuse" }, - "name": "Solar Array Verification and Analysis Tool (SAVANT)", - "description": "The powerful, yet easy-to-use SAVANT quick-engineering code calculates the expected radiation damage to solar cells in Earth orbit. The tool contains ten types of solar cells and four types of cover glass. Radiation damage calculations are based on the Displacement Damage Dose method developed at the Naval Research Laboratories.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17453-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb611c" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "MAPSS is a flexible turbofan engine simulation environment that provides easy access to health, control, and engine parameters through a graphical user interface. 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", "identifier": "LEW-16851-3", - "repositoryURL": "https://software.nasa.gov/software/LEW-16851-3", + "laborHours": 0, + "name": "TSONIC", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb612c" + "usageType": "governmentWideReuse" }, - "name": "V072 Rotor Wake/Stator Interaction Noise Prediction", - "description": "The V072 computer code predicts noise from rotor wake/stator interactions. The technology can perform compressor rotor wake prediction only, rotor/stator or fan/FEGV interaction only, fan/core stator interaction only, and both fan/FEGV and fan/core stator interactions.", + "repositoryURL": "https://software.nasa.gov/software/LEW-16851-3", "tags": [ "NASA", "GRC", "U.S. Release Only", - "Propulsion" - ], + "System Testing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb612a" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "TD2 performs a streamline analysis that can use meridional velocity gradients to control the radial distribution of work and flow for multistage, multishaft, cooled/uncooled axial-flow turbines. The effects of streamline slope and curvature are included in the radial equilibrium. Hub and tip radii are specified at inlet, at exit, and between each blade row, and velocity diagrams for each stage can be individually controlled. An internal loss correction determines blade-row total-pressure-loss coefficients along the streamlines.", + "identifier": "LEW-11029-1", + "laborHours": 0, + "name": "TD2 Axial Turbine Design and Performance Code", "organization": "GRC", - "identifier": "LEW-17065-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17065-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb612d" + "usageType": "governmentWideReuse" }, - "name": "Tone Fan Noise Design/Prediction System (TFaNS 1.4)", - "description": "TFaNS predicts tone noise emanating from a fan stage, including the effects of reflection and transmission by the rotor and stator and by the duct inlet and nozzle.", + "repositoryURL": "https://software.nasa.gov/software/LEW-11029-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb612c" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The V072 computer code predicts noise from rotor wake/stator interactions. The technology can perform compressor rotor wake prediction only, rotor/stator or fan/FEGV interaction only, fan/core stator interaction only, and both fan/FEGV and fan/core stator interactions.", + "identifier": "LEW-17065-1", + "laborHours": 0, + "name": "V072 Rotor Wake/Stator Interaction Noise Prediction", "organization": "GRC", - "identifier": "LEW-17063-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17063-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb612e" + "usageType": "governmentWideReuse" }, - "name": "Tone Fan Noise Design/Prediction System (TFaNS 1.5)", - "description": "TFaNS predicts tone noise emanating from a fan stage, including the effects of reflection and transmission by the rotor and stator and by the duct inlet and nozzle. Version 1.5 upgrades include: the SOURCE3D subprogram's ability to perform transmission-loss calculation for modes scattering into themselves; the inlet and aft radiation codes' use of infinite envelope elements in the far-field; and the AWAKEN subprogram's use of a new Acoustic Wake/Turbulence File format.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17065-1", "tags": [ "NASA", "GRC", "U.S. Release Only", - "System Testing" - ], + "Propulsion" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb612d" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "TFaNS predicts tone noise emanating from a fan stage, including the effects of reflection and transmission by the rotor and stator and by the duct inlet and nozzle.", + "identifier": "LEW-17063-1", + "laborHours": 0, + "name": "Tone Fan Noise Design/Prediction System (TFaNS 1.4)", "organization": "GRC", - "identifier": "LEW-17063-2", - "repositoryURL": "https://software.nasa.gov/software/LEW-17063-2", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-17063-1", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb612f" }, - "name": "TURBAN Turbomachine Design Code", - "description": "TURBAN analysis is performed at the arithmetic mean diameter. 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The acoustic model is exact and accounts for all unsteady sources.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17063-2", "tags": [ "NASA", "GRC", "U.S. Release Only", - "Propulsion" - ], + "System Testing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6130" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Tempest was created to provide Internet/Intranet connectivity to real-time embedded applications.", + "identifier": "LEW-17294-1", + "laborHours": 0, + "name": "Tempest", "organization": "GRC", - "identifier": "LEW-17325-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17325-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6132" + "usageType": "governmentWideReuse" }, - "name": "SmaggIce Windows, Version 2.0", - "description": "The SmaggIce software toolkit can be used to create structured grids for single- or multi-element 2D iced airfoils in preparation for computational fluid dynamics (CFD) analysis. Software tools will measure ice shape characteristics, add artificial ice shapes, prepare an ice surface for gridding, perform domain decomposition, create and modify grids, analyze grid quality, and output grids for subsequent input into flow solvers.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17294-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6131" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology computes the tone noise associated with propellers and predicts axial and circumferential directivity. The acoustic model is exact and accounts for all unsteady sources.", + "identifier": "LEW-17325-1", + "laborHours": 0, + "name": "WOBBLE", "organization": "GRC", - "identifier": "LEW-17399-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17399-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6133" - }, - "name": "SmaggIce UNIX, Version 2.0", - "description": "The SmaggIce software toolkit can be used to create structured grids for single- or multi-element 2D iced airfoils in preparation for computational fluid dynamics (CFD) analysis. Software tools will measure ice shape characteristics, add artificial ice shapes, prepare an ice surface for gridding, perform domain decomposition, create and modify grids, analyze grid quality, and output grids for subsequent input into flow solvers.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17325-1", "tags": [ "NASA", "GRC", "U.S. Release Only", - "System Testing" - ], + "Propulsion" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6132" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The SmaggIce software toolkit can be used to create structured grids for single- or multi-element 2D iced airfoils in preparation for computational fluid dynamics (CFD) analysis. Software tools will measure ice shape characteristics, add artificial ice shapes, prepare an ice surface for gridding, perform domain decomposition, create and modify grids, analyze grid quality, and output grids for subsequent input into flow solvers.", + "identifier": "LEW-17399-1", + "laborHours": 0, + "name": "SmaggIce Windows, Version 2.0", "organization": "GRC", - "identifier": "LEW-17399-2", - "repositoryURL": "https://software.nasa.gov/software/LEW-17399-2", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6134" - }, - "name": "TCGRID v.400", - "description": "TCGRID is a three-dimensional grid-generation code for turbo-machinery blades. The software can generate single- or multi-block grids that are compatible with several computational fluid dynamics (CFD) analysis codes, including SWIFT and ADPAC.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17399-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6133" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The SmaggIce software toolkit can be used to create structured grids for single- or multi-element 2D iced airfoils in preparation for computational fluid dynamics (CFD) analysis. Software tools will measure ice shape characteristics, add artificial ice shapes, prepare an ice surface for gridding, perform domain decomposition, create and modify grids, analyze grid quality, and output grids for subsequent input into flow solvers.", + "identifier": "LEW-17399-2", + "laborHours": 0, + "name": "SmaggIce UNIX, Version 2.0", "organization": "GRC", - "identifier": "LEW-17635-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17635-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6135" + "usageType": "governmentWideReuse" }, - "name": "SWIFT, v.400", - "description": "SWIFT is a multi-block computational fluid dynamics (CFD) analysis code for turbo-machinery. The software, which solves Navier-Stokes equations using explicit finite-difference techniques, can be used for linear cascades, isolated blade rows, or multistage machines. Three differencing schemes are available: central differences, AUSM+, and H-CUSP. Three turbulence models are also available: Baldwin-Lomax, Cebeci-Smith, and Wilcox 2006 K-Omega.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17399-2", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6134" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "TCGRID is a three-dimensional grid-generation code for turbo-machinery blades. The software can generate single- or multi-block grids that are compatible with several computational fluid dynamics (CFD) analysis codes, including SWIFT and ADPAC.", + "identifier": "LEW-17635-1", + "laborHours": 0, + "name": "TCGRID v.400", "organization": "GRC", - "identifier": "LEW-17635-2", - "repositoryURL": "https://software.nasa.gov/software/LEW-17635-2", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6136" + "usageType": "governmentWideReuse" }, - "name": "Time-Accurate, Sectored, One-Dimensional Reactive Code for Simulation, Prediction, and Control of Combustion Instabilities", - "description": "This sectored one-dimensional model utilizes a simplified computational fluid dynamics (CFD) algorithm to simulate combustion and acoustic processes (including instabilities) in combustors with complex shapes. Utilizing modest computational resources, the code produces realistic results and is well suited for controls development.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17635-1", "tags": [ "NASA", "GRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6135" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "SWIFT is a multi-block computational fluid dynamics (CFD) analysis code for turbo-machinery. The software, which solves Navier-Stokes equations using explicit finite-difference techniques, can be used for linear cascades, isolated blade rows, or multistage machines. Three differencing schemes are available: central differences, AUSM+, and H-CUSP. Three turbulence models are also available: Baldwin-Lomax, Cebeci-Smith, and Wilcox 2006 K-Omega.", + "identifier": "LEW-17635-2", + "laborHours": 0, + "name": "SWIFT, v.400", "organization": "GRC", - "identifier": "LEW-17677-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17677-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6137" + "usageType": "governmentWideReuse" }, - "name": "Capture Test Waveform for the SCaN Testbed Harris SDR", - "description": "The Capture Test Waveform is a software application designed for space-based reconfigurable radios. The innovation allows snapshots of a radio's receiver environment for any number of objectives, such as interference mitigation or radio frequency mapping. Digital samples are acquired and stored in the radio's memory for processing, be that on-board the spacecraft or after download to the ground. The application is labeled \"Test waveform\" because it does not perform any standard communication link functions, such as carrier recovery or demodulation. Depending on the radio's resources and architecture, this application could be run in parallel with a standard communications link waveform application.", + "repositoryURL": "https://software.nasa.gov/software/LEW-17635-2", "tags": [ "NASA", "GRC", "U.S. Release Only", - "Electronics and Electrical Power" - ], + "System Testing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6136" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This sectored one-dimensional model utilizes a simplified computational fluid dynamics (CFD) algorithm to simulate combustion and acoustic processes (including instabilities) in combustors with complex shapes. Utilizing modest computational resources, the code produces realistic results and is well suited for controls development.", + "identifier": "LEW-17677-1", + "laborHours": 0, + "name": "Time-Accurate, Sectored, One-Dimensional Reactive Code for Simulation, Prediction, and Control of Combustion Instabilities", "organization": "GRC", - "identifier": "LEW-19286-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-19286-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-12-11" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-17677-1", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6138" }, - "name": "NASA Glenn Research Center: The Early Years for iPad", - "description": "Photographic gallery type application containing imagery and descriptions from the GRC image archive. Photos and data cover the period from 1941-1979. The software has been compiled and bundled as an iOS app for the iPad and intended for release through the Apple App Store.", - "tags": [ - "NASA", - "GRC", - "Open Source", - "Aeronautics" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-22" + }, + "description": "Photographic gallery type application containing imagery and descriptions from the GRC image archive. Photos and data cover the period from 1941-1979. The software has been compiled and bundled as an iOS app for the iPad and intended for release through the Apple App Store.", "identifier": "LEW-18993-1", - "repositoryURL": "https://www.nasa.gov/centers/glenn/multimedia/grchistory.html", + "laborHours": 0, + "name": "NASA Glenn Research Center: The Early Years for iPad", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://itunes.apple.com/WebObjects/MZStore.woa/wa/viewEula?id=562903295", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-22" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6139" + "usageType": "openSource" }, - "name": "NASA Flywheel for iPad", - "description": "Augmented reality application intended to highlight NASA Glenn's research efforts in the area of flywheel energy storage systems. The app utilizes a printed optical target, available on the GRC Flywheel Program brochure and through the NASA Glenn web portal, to present users with 3D views of flywheel hardware and space applications. Additional video and imagery are also inlcuded in the application package. The software has been compiled and bundled as an iOS app for the iPad and intended for release through the Apple App Store.", + "repositoryURL": "https://www.nasa.gov/centers/glenn/multimedia/grchistory.html", "tags": [ "NASA", "GRC", "Open Source", - "Propulsion" - ], + "Aeronautics" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6137" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-12-11" + }, + "description": "The Capture Test Waveform is a software application designed for space-based reconfigurable radios. The innovation allows snapshots of a radio's receiver environment for any number of objectives, such as interference mitigation or radio frequency mapping. Digital samples are acquired and stored in the radio's memory for processing, be that on-board the spacecraft or after download to the ground. The application is labeled \"Test waveform\" because it does not perform any standard communication link functions, such as carrier recovery or demodulation. Depending on the radio's resources and architecture, this application could be run in parallel with a standard communications link waveform application.", + "identifier": "LEW-19286-1", + "laborHours": 0, + "name": "Capture Test Waveform for the SCaN Testbed Harris SDR", "organization": "GRC", - "identifier": "LEW-19133-1", - "repositoryURL": "https://www.nasa.gov/centers/glenn/multimedia/applied_science/flywheel", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://itunes.apple.com/WebObjects/MZStore.woa/wa/viewEula?cc=us&id=804737215", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-22" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-19286-1", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "Electronics and Electrical Power" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb613a" }, - "name": "EADIN Communication Protocol", + "contact": { + "email": "grc-sra-team@mail.nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-22" + }, "description": "The product of this work is a communication protocol which allows microcontrollers to talk with eachother in a structured fashion. As such, it is embodied in C++ code that runs on the microcontroller. The software is not mission certified and is being used for demonstration and testing purposes only. The current goal of this project is to realease the software open source to enable community participation. We have external companies requesting that we release this software.", + "identifier": "LEW-19264-1", + "laborHours": 0, + "name": "EADIN Communication Protocol", + "organization": "GRC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/nasa/EADINLite/blob/master/License.txt", + "name": "NASA v3" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/nasa/EADINLite/", "tags": [ "NASA", "GRC", "Open Source", "Propulsion" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6139" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-22" + }, + "description": "Augmented reality application intended to highlight NASA Glenn's research efforts in the area of flywheel energy storage systems. The app utilizes a printed optical target, available on the GRC Flywheel Program brochure and through the NASA Glenn web portal, to present users with 3D views of flywheel hardware and space applications. Additional video and imagery are also inlcuded in the application package. The software has been compiled and bundled as an iOS app for the iPad and intended for release through the Apple App Store.", + "identifier": "LEW-19133-1", + "laborHours": 0, + "name": "NASA Flywheel for iPad", "organization": "GRC", - "identifier": "LEW-19264-1", - "repositoryURL": "https://github.com/nasa/EADINLite/", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/EADINLite/blob/master/License.txt", + "URL": "https://itunes.apple.com/WebObjects/MZStore.woa/wa/viewEula?cc=us&id=804737215", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-22" - } + "repositoryURL": "https://www.nasa.gov/centers/glenn/multimedia/applied_science/flywheel", + "tags": [ + "NASA", + "GRC", + "Open Source", + "Propulsion" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb613b" }, - "name": "Channel Emulator", - "description": "The Channel Emulator (CE) is a software-based network testing tool. Its primary functions are providing data framing services, acting as a flexible protocol gateway, and providing network emulation capabilities. \r\n\r\nThe software caneasily accept one protocol, optionally extract the payload, send out as different protocol, or encapsulate one in another. It can also introduce delays up to deep space levels, and introduce bit errors and other link degradations.", - "tags": [ - "NASA", - "GRC", - "Open Source", - "System Testing" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-22" + }, + "description": "The Channel Emulator (CE) is a software-based network testing tool. Its primary functions are providing data framing services, acting as a flexible protocol gateway, and providing network emulation capabilities. \r\n\r\nThe software caneasily accept one protocol, optionally extract the payload, send out as different protocol, or encapsulate one in another. It can also introduce delays up to deep space levels, and introduce bit errors and other link degradations.", "identifier": "LEW-19351-1", - "repositoryURL": "https://github.com/nasa/channel-emulator/", + "laborHours": 0, + "name": "Channel Emulator", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/channel-emulator/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-22" - } + "repositoryURL": "https://github.com/nasa/channel-emulator/", + "tags": [ + "NASA", + "GRC", + "Open Source", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb613c" }, - "name": "OTIS 4-A Trajectory Optimization Computer Code", - "description": "OTIS 4 is a Fortran program designed to simulate and optimize trajectories of launch vehicles, aircraft, satellites, and interplanetary vehicles. The software is restricted by export control, specifically ITAR.", - "tags": [ - "NASA", - "GRC", - "U.S. Government Purpose Release", - "System Testing" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "OTIS 4 is a Fortran program designed to simulate and optimize trajectories of launch vehicles, aircraft, satellites, and interplanetary vehicles. The software is restricted by export control, specifically ITAR.", "identifier": "LEW-18319-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-18319-1", + "laborHours": 0, + "name": "OTIS 4-A Trajectory Optimization Computer Code", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-18319-1", + "tags": [ + "NASA", + "GRC", + "U.S. Government Purpose Release", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb613d" }, - "name": "Space Telecommunications Radio System (STRS) Compliance Tools", - "description": "These tools are used to help verify software compliance to the NASA-developed Space Telecommunications Radio System (STRS) architecture. The goal of STRS is to support waveform application portability, upgradability, and reduce the cost and risk of using Software Defined Radios for NASA. ComplianceTool.sh is a Bourne shell script that tests an STRS application for the appropriate method signatures. The output is a web page containing the results. ComplianceToolOE.sh is a Bourne shell script that tests the STRS infrastructure for the required named constants, typedefs, and structs. The output is a web page containing the results. The command and compliance application, WFCCN, is ported, compiled, and linked with an STRS infrastructure to verify static compliance such that all required STRS infrastructure-provided methods are implemented as well as the named constants, typedefs, and structs. WFCCN may also be executed for dynamic compliance testing. The tools are described in \"STRS Compliance Testing\", NASA/TM 2011-217266.", - "tags": [ - "NASA", - "GRC", - "U.S. Release Only", - "Operations" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "These tools are used to help verify software compliance to the NASA-developed Space Telecommunications Radio System (STRS) architecture. The goal of STRS is to support waveform application portability, upgradability, and reduce the cost and risk of using Software Defined Radios for NASA. ComplianceTool.sh is a Bourne shell script that tests an STRS application for the appropriate method signatures. The output is a web page containing the results. ComplianceToolOE.sh is a Bourne shell script that tests the STRS infrastructure for the required named constants, typedefs, and structs. The output is a web page containing the results. The command and compliance application, WFCCN, is ported, compiled, and linked with an STRS infrastructure to verify static compliance such that all required STRS infrastructure-provided methods are implemented as well as the named constants, typedefs, and structs. WFCCN may also be executed for dynamic compliance testing. The tools are described in \"STRS Compliance Testing\", NASA/TM 2011-217266.", "identifier": "LEW-18562-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-18562-1", + "laborHours": 0, + "name": "Space Telecommunications Radio System (STRS) Compliance Tools", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-18562-1", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb613e" }, - "name": "A Software Platform for Post-Processing Waveform-Based NDE - V2.0", - "description": "A Software Platform for Post-Processing Waveform-Based NDE - V2.0\r\n\r\nThe NDE Wave ", - "tags": [ - "NASA", - "GRC", - "General Public Release", - "Structures and Mechanisms" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-9-10" + }, + "description": "A Software Platform for Post-Processing Waveform-Based NDE - V2.0\r\n\r\nThe NDE Wave ", "identifier": "LEW-18460-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-18460-1", + "laborHours": 0, + "name": "A Software Platform for Post-Processing Waveform-Based NDE - V2.0", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-9-10" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-18460-1", + "tags": [ + "NASA", + "GRC", + "General Public Release", + "Structures and Mechanisms" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb613f" + "$oid": "5a3a9b78da833f1e40fb6140" }, - "name": "Open MDAO Version 0.1: The Next Generation Multidisciplinary Design Analysis and Optimization (MDAO) Open Source Framework", - "description": "OpenMDAO version 0.1 is the initial version of the next generation Multidisciplinary Design Analysis and Optimization (MDAO) open source framework. OpenMDAO is the open source framework developed by NASA that will be accessible via an open source website to reach the entire broad based MDAO community to facilitate advancing the science of MDAO. MDAO covers a vast set of capabilities, including a flexible framework and state of the art discipline codes. This innovation relates specifically to the framework. OpenMDAO provides the core software infrastructure to integrate multidisciplinary variable fidelity tools and enable design, analysis, and optimization of complex systems. Currently, the OpenMDAO version 0.1 functionalities include component linking, data passing, driver interface, and lazy evaluation. This initial basic capability of the framework is sufficient for users to run and optimize their analysis after they integrate their specific component codes. As OpenMDAO evolves, the following capabilities will be included in the framework: interprocess communications, error handling, user interfaces, geometry application program interfaces (APIs), plug-in interfaces, utilities to wrap tools, versioning, and parallel processing support. To be clear, the framework will enable the integration of, but will not include: optimizers, solvers, visualization tools, custom data types, script components, and discipline codes. AEROSPACE: To meet the present and future economic and environmental challenges facing air transportation, aviation design must expand its focus from today's conventional \"wing-body-tail\" aircraft to more advanced vehicles. The ability to design revolutionary aircraft to improve mobility and air transport efficiency is of paramount importance to the national economy, along with reducing our environmental impact and supporting national defense. Technologies such as the one disclosed here incorporate progressively more sophisticated computational models and methods, enabling future aircraft designs today.", - "tags": [ - "NASA", - "GRC", - "Open Source", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-22" + }, + "description": "IPv6 Extension module for Python that allows a user to enable IPv6 features not yet available for any Python versions. Currently, it allows for IPv6 flow labels to be enabled for a given Python socket object.", + "identifier": "LEW-19323-1", + "laborHours": 0, + "name": "IPv6 Python Extension Module", "organization": "GRC", - "identifier": "LEW-18550-1", - "repositoryURL": "https://github.com/nasa/OpenMDAO-Framework", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/OpenMDAO-Framework/blob/dev/LICENSE.txt", + "URL": "https://github.com/nasa/ipv6_python/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-22" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6140" + "usageType": "openSource" }, - "name": "IPv6 Python Extension Module", - "description": "IPv6 Extension module for Python that allows a user to enable IPv6 features not yet available for any Python versions. Currently, it allows for IPv6 flow labels to be enabled for a given Python socket object.", + "repositoryURL": "https://github.com/nasa/ipv6_python/", "tags": [ "NASA", "GRC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6141" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-10-20" + }, + "description": "The GRC GSFC TDRSS (GGT) Waveform is a Binary-Phase-Shift-Keying (BPSK) spread-spectrum waveform that uses BPSK and SS-BPSK modulation to enable standard TDRSS functionality. The Spread Spectrum BPSk modes operate over the TDRSS Single Access and Multiple Access services at data rates of 18kbps forward and 24kbps return, with options possible for encoding/decoding and scrambling. The BPSK modulation modes operate at 155kbps and 769kbps forward, and 192kbps and 769kbps return, respectively. Similar options are available for encoding/decoding and scrambling. The waveform supports a SpaceWire data interface to the flight computer and provides a standard 1553 command and telemetry interface. Government Purpose Release Only. \r\n", + "identifier": "LEW-18976-1", + "laborHours": 0, + "name": "GRC GSFC TDRSS (GGT) Waveform", "organization": "GRC", - "identifier": "LEW-19323-1", - "repositoryURL": "https://github.com/nasa/ipv6_python/", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/ipv6_python/blob/master/LICENSE", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-22" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6141" + "usageType": "governmentWideReuse" }, - "name": "GRC GSFC TDRSS (GGT) Waveform", - "description": "The GRC GSFC TDRSS (GGT) Waveform is a Binary-Phase-Shift-Keying (BPSK) spread-spectrum waveform that uses BPSK and SS-BPSK modulation to enable standard TDRSS functionality. The Spread Spectrum BPSk modes operate over the TDRSS Single Access and Multiple Access services at data rates of 18kbps forward and 24kbps return, with options possible for encoding/decoding and scrambling. The BPSK modulation modes operate at 155kbps and 769kbps forward, and 192kbps and 769kbps return, respectively. Similar options are available for encoding/decoding and scrambling. The waveform supports a SpaceWire data interface to the flight computer and provides a standard 1553 command and telemetry interface. Government Purpose Release Only. \r\n", + "repositoryURL": "https://software.nasa.gov/software/LEW-18976-1", "tags": [ "NASA", "GRC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb613f" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-22" + }, + "description": "OpenMDAO version 0.1 is the initial version of the next generation Multidisciplinary Design Analysis and Optimization (MDAO) open source framework. OpenMDAO is the open source framework developed by NASA that will be accessible via an open source website to reach the entire broad based MDAO community to facilitate advancing the science of MDAO. MDAO covers a vast set of capabilities, including a flexible framework and state of the art discipline codes. This innovation relates specifically to the framework. OpenMDAO provides the core software infrastructure to integrate multidisciplinary variable fidelity tools and enable design, analysis, and optimization of complex systems. Currently, the OpenMDAO version 0.1 functionalities include component linking, data passing, driver interface, and lazy evaluation. This initial basic capability of the framework is sufficient for users to run and optimize their analysis after they integrate their specific component codes. As OpenMDAO evolves, the following capabilities will be included in the framework: interprocess communications, error handling, user interfaces, geometry application program interfaces (APIs), plug-in interfaces, utilities to wrap tools, versioning, and parallel processing support. To be clear, the framework will enable the integration of, but will not include: optimizers, solvers, visualization tools, custom data types, script components, and discipline codes. AEROSPACE: To meet the present and future economic and environmental challenges facing air transportation, aviation design must expand its focus from today's conventional \"wing-body-tail\" aircraft to more advanced vehicles. The ability to design revolutionary aircraft to improve mobility and air transport efficiency is of paramount importance to the national economy, along with reducing our environmental impact and supporting national defense. Technologies such as the one disclosed here incorporate progressively more sophisticated computational models and methods, enabling future aircraft designs today.", + "identifier": "LEW-18550-1", + "laborHours": 0, + "name": "Open MDAO Version 0.1: The Next Generation Multidisciplinary Design Analysis and Optimization (MDAO) Open Source Framework", "organization": "GRC", - "identifier": "LEW-18976-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-18976-1", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" + "URL": "https://github.com/nasa/OpenMDAO-Framework/blob/dev/LICENSE.txt", + "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-10-20" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6142" + "usageType": "openSource" }, - "name": "CCGEOM", - "description": "CCGEOM is a Fortran computer code developed to facilitate the rapid generation of the flow passage and blading for various turbomachinery components.", + "repositoryURL": "https://github.com/nasa/OpenMDAO-Framework", "tags": [ "NASA", "GRC", - "U.S. Release Only", - "Structures and Mechanisms" - ], + "Open Source", + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6142" + }, "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-8-19" + }, + "description": "CCGEOM is a Fortran computer code developed to facilitate the rapid generation of the flow passage and blading for various turbomachinery components.", "identifier": "LEW-17450-1A", - "repositoryURL": "https://github.com/kmader/ccgeom", + "laborHours": 0, + "name": "CCGEOM", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/kmader/ccgeom/blob/master/README.md", "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-8-19" - } + "repositoryURL": "https://github.com/kmader/ccgeom", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "Structures and Mechanisms" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6143" }, - "name": "TURBO-AE: An Aeroelastic And Multi-stage Aerodynamic Analysis Code Based On Unsteady Three-dimensional Navier-Stokes Equations", - "description": "An aeroelastic and unsteady aerodynamic analysis code has been developed for prediction of flutter, forced response, performance and rotor-stator interaction effects. The analysis provides a high-fidelity modeling of subsonic, transonic and supersonic flow regimes with attached and separated flow fields. The code calculates performance quantities such as efficiency, mass flow, pressure ratio, temperature ratio, distribution of flowfield properties in the entire domain of calculation, aerodynamic damping to assess flutter stabiltiy and unsteady aerodynamic forces arising from rotor-stator interaction for calculation of forced response. This information can be used in high cycle fatigue analysis of blade rows.", - "tags": [ - "NASA", - "GRC", - "U.S. Release Only", - "Aeronautics" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-9-14" + }, + "description": "An aeroelastic and unsteady aerodynamic analysis code has been developed for prediction of flutter, forced response, performance and rotor-stator interaction effects. The analysis provides a high-fidelity modeling of subsonic, transonic and supersonic flow regimes with attached and separated flow fields. The code calculates performance quantities such as efficiency, mass flow, pressure ratio, temperature ratio, distribution of flowfield properties in the entire domain of calculation, aerodynamic damping to assess flutter stabiltiy and unsteady aerodynamic forces arising from rotor-stator interaction for calculation of forced response. This information can be used in high cycle fatigue analysis of blade rows.", "identifier": "LEW-17514-1", - "repositoryURL": "https://software.nasa.gov/software/LEW-17514-1", + "laborHours": 0, + "name": "TURBO-AE: An Aeroelastic And Multi-stage Aerodynamic Analysis Code Based On Unsteady Three-dimensional Navier-Stokes Equations", + "organization": "GRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-9-14" - } + "repositoryURL": "https://software.nasa.gov/software/LEW-17514-1", + "tags": [ + "NASA", + "GRC", + "U.S. Release Only", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6144" }, - "name": "SCaN Optical Link Assessment Tool Version 2", - "description": "A calculation procedure has been designed and implemented in software that enables the specification and design of a space-based optical communications system. The resulting optical link budget essentially accounts for the communication power flow through the entire optical communications channel from the transmitter to the receiver and yields design specifications for the optical system necessary to assure reliable data transmission with desired operational metrics such as data rate, link margin, etc. The link assessment tool takes into account all the sources of deleterious noise that enters into the communications process such as electronically generated noise in the optical detector and stray optical irradiance from external sources. The link budget has the capability of being interfaced with the orbital element calculations of the Satellite Tool Kit (STK) to allow the dynamic description and evolution of optical link operation from any space-borne satellite within the solar system to and from the earth. The current version implements PPM and DPSK modulation types that can use PIN, APD, or nanowire optical detectors in teh presence of atmospheric turbulence. Coded and un-coded link power margins are provided.", - "tags": [ - "NASA", - "GRC", - "U.S. Release Only", - "Operations" - ], "contact": { "email": "grc-sra-team@mail.nasa.gov" }, - "organization": "GRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-7-13" + }, + "description": "A calculation procedure has been designed and implemented in software that enables the specification and design of a space-based optical communications system. The resulting optical link budget essentially accounts for the communication power flow through the entire optical communications channel from the transmitter to the receiver and yields design specifications for the optical system necessary to assure reliable data transmission with desired operational metrics such as data rate, link margin, etc. The link assessment tool takes into account all the sources of deleterious noise that enters into the communications process such as electronically generated noise in the optical detector and stray optical irradiance from external sources. The link budget has the capability of being interfaced with the orbital element calculations of the Satellite Tool Kit (STK) to allow the dynamic description and evolution of optical link operation from any space-borne satellite within the solar system to and from the earth. The current version implements PPM and DPSK modulation types that can use PIN, APD, or nanowire optical detectors in teh presence of atmospheric turbulence. 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Please visit the following URL for more information: http://opensource.gsfc.nasa.gov/projects/Alias/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/paramesh/index.php", "tags": [ "NASA", "GSFC", "Open Source", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6153" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "TIPSOD is a software application designed for interactive, animated, 4D (space and time) visualization of satellite orbits. The technology is implemented in Java 3D and is an extension to the existing Satellite Situation Center Web (SSCWeb) 2D static orbit graphics. 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The toolkit can be downloaded at: http://opensource.gsfc.nasa.gov/projects/Matlab_Zemax/index.php", + "identifier": "GSC-15151-1", + "laborHours": 0, + "name": "MATLAB-Zemax Toolkit", "organization": "GSFC", - "identifier": "GSC-14732-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/tipsod/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.org/licenses/NASA-1.3", + "URL": "https://opensource.gsfc.nasa.gov/projects/Matlab_Zemax/matlab_zemax.doc", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6154" + "usageType": "openSource" }, - "name": "MATLAB-Zemax Toolkit", - "description": "The MATLAB-Zemax toolkit is a set of MATLAB scripts and functions that enable rapid transfer of optical system and performance data from Zemax optical software into the MATLAB environment. 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The toolkit can be downloaded at: http://opensource.gsfc.nasa.gov/projects/Matlab_Zemax/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/Matlab_Zemax/index.php", "tags": [ "NASA", "GSFC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6152" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "ALIAS supports radiometric and geometric multispectral image processing for the Advanced Land Imager (ALI) instrument onboard NASA's Earth Observing-1 (EO-1) satellite. The radiometric subsystem characterizes and (where possible) corrects: detector operability; gain; bias; coherent, impulse, and random noise; signal-to-noise ratios; saturation levels; striping and banding; and the stability of detector performance. 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Please visit the following URL for more information: http://opensource.gsfc.nasa.gov/projects/Alias/index.php", + "identifier": "GSC-15185-1", + "laborHours": 0, + "name": "Advanced Land Image Assessment System (ALIAS)", "organization": "GSFC", - "identifier": "GSC-15151-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/Matlab_Zemax/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/Matlab_Zemax/matlab_zemax.doc", + "URL": "https://opensource.gsfc.nasa.gov/projects/Alias/ALIAS_NOSA.doc", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/Alias/", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6155" }, - "name": "Coordinated Data Analysis Workshop Web (CDAWeb)", - "description": "The CDAWeb software and the CDAWeb service built on this software have been developed and continue to be enhanced and maintained by the Space Physics Data Facility. 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The technology conforms to all applicable Web service specifications of the World Wide Web Consortium. Please visit the following URL for additional information: http://spdf.gsfc.nasa.gov/", + "repositoryURL": "https://cdaweb.gsfc.nasa.gov/about.html", "tags": [ "NASA", "GSFC", "Open Source", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + "Data Servers Processing and Handling" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6157" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Earth Observing System Clearing House (ECHO) affords the earth science community more flexibility in accessing and sharing data and services. As a metadata clearinghouse, ECHO supports iterative query data access. As a service broker, ECHO decentralizes data-manipulation tools and supports the interoperability of distributed functions. For more information, please visit: http://ti.arc.nasa.gov/opensource/projects/echo/", + "identifier": "GSC-14726-1", + "laborHours": 0, + "name": "Earth Observing System (EOS) Clearing House (ECHO)", "organization": "GSFC", - "identifier": "GSC-14730-1", - "repositoryURL": "ftp://spdf.gsfc.nasa.gov/", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.org/licenses/NASA-1.3", + "URL": "https://github.com/nasa/earthdata-search/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6157" + "usageType": "openSource" }, - "name": "Earth Observing System (EOS) Clearing House (ECHO)", - "description": "The Earth Observing System Clearing House (ECHO) affords the earth science community more flexibility in accessing and sharing data and services. 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Please visit the following URL for additional information: http://spdf.gsfc.nasa.gov/", + "identifier": "GSC-14730-1", + "laborHours": 0, + "name": "Space Physics Data Facility (SPDF) Web Services", "organization": "GSFC", - "identifier": "GSC-14726-1", - "repositoryURL": "https://api-test.echo.nasa.gov/legacy-services/apis.html", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/earthdata-search/blob/master/LICENSE", + "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6158" + "usageType": "openSource" }, - "name": "General EQFlux", - "description": "The WindowsEQFlux computer program converts solar-cell damage resulting from hard-particle radiation into the equivalent fluence on MeV electrons. 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The innovation enables users to explore, discover, and order available data from geographically distributed providers. For more information, please visit: http://opensource.gsfc.nasa.gov/projects/edg/index.php#software", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/eqflux/index.php", "tags": [ "NASA", "GSFC", "Open Source", - "Data Servers Processing and Handling" - ], + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb615a" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The OSAL library isolates embedded application software from a Real-Time Operating System (RTOS). The technology provides a well-defined, generic interface to RTOS services; a generic interface to hardware services; and an implementation for several current RTO systems. By using the library, an embedded application can remain portable among multiple operating systems on multiple platforms. Please visit the following URL for additional information: http://opensource.gsfc.nasa.gov/projects/osal/", + "identifier": "GSC-14921-1", + "laborHours": 0, + "name": "Operating System Abstraction Layer (OSAL)", "organization": "GSFC", - "identifier": "GSC-14938-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/edg/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.org/licenses/NASA-1.3", + "URL": "https://github.com/nasa/osal/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb615a" + "usageType": "openSource" }, - "name": "Operating System Abstraction Layer (OSAL)", - "description": "The OSAL library isolates embedded application software from a Real-Time Operating System (RTOS). 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For more information, please visit: http://opensource.gsfc.nasa.gov/projects/edg/index.php#software", + "identifier": "GSC-14938-1", + "laborHours": 0, + "name": "Earth Observing System (EOS) Data Gateway (EDG)", "organization": "GSFC", - "identifier": "GSC-14921-1", - "repositoryURL": "https://github.com/nasa/osal", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/osal/blob/master/LICENSE", + "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/edg/index.php", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb615b" }, - "name": "Architecture Adaptive Computing Environment (ACE)", - "description": "The Architecture Adaptive Computing Environment (ACE) is a parallel computing language, compiler, and runtime library. 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The purpose of ACE is to allow a programmer to more easily write parallel programs for a wide variety of parallel computer architectures.", "identifier": "GSC-14911-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/ace/", + "laborHours": 0, + "name": "Architecture Adaptive Computing Environment (ACE)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.gsfc.nasa.gov/projects/ace/NOSA-ACE.doc", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/ace/", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb615c" }, - "name": "Simple, Scalable, Script-Based Science Processor for Missions (S4PM)", - "description": "S4PM is a set of Perl scripts that implement a data-driven processing system that executes science algorithms automatically as new data arrive. S4PM includes a graphical user interface for monitoring algorithms and the overall system for failures. The Perl scripts can currently process data from the Moderate Resolution Imaging Spectroradiometer and the Atmospheric Infrared Sounder, but the technology can be extended to process data from other missions if desired. Please visit the following URL for more information: http://opensource.gsfc.nasa.gov/projects/s4pm/", - "tags": [ - "NASA", - "GSFC", - "Open Source", - "Autonomous Systems" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "S4PM is a set of Perl scripts that implement a data-driven processing system that executes science algorithms automatically as new data arrive. S4PM includes a graphical user interface for monitoring algorithms and the overall system for failures. The Perl scripts can currently process data from the Moderate Resolution Imaging Spectroradiometer and the Atmospheric Infrared Sounder, but the technology can be extended to process data from other missions if desired. Please visit the following URL for more information: http://opensource.gsfc.nasa.gov/projects/s4pm/", "identifier": "GSC-14841-1", - "repositoryURL": "https://sourceforge.net/projects/s4pm", + "laborHours": 0, + "name": "Simple, Scalable, Script-Based Science Processor for Missions (S4PM)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb615d" + "usageType": "openSource" }, - "name": "XML to HDF-EOS Convertor", - "description": "This software program takes an XML representation of the contents of a Hierarchical Data Format-Earth Observing System (HDF-EOS) file and recreates the file from that description. Please visit the following URL for additional information: http://opensource.gsfc.nasa.gov/projects/xml2he/index.php", + "repositoryURL": "https://sourceforge.net/projects/s4pm", "tags": [ "NASA", "GSFC", "Open Source", - "Data and Image Processing" - ], + "Autonomous Systems" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb615f" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "IRC provides robust interactive and distributed control/monitoring of remote instruments. The IRC architecture combines the processing capabilities of Java with the power of XML to express hierarchical data in a human-readable, platform-independent format. For additional information, please visit: http://opensource.gsfc.nasa.gov/projects/IRC/index.php", + "identifier": "GSC-14308-1", + "laborHours": 0, + "name": "Interoperable Remote Component (IRC)", "organization": "GSFC", - "identifier": "GSC-15017-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/xml2he/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/xml2he/xml2he_NOSA_1.3O.rtf", + "URL": "https://opensource.gsfc.nasa.gov/projects/IRC/NASA%20Open%20Source%20Agreement%20IRC.txt", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb615e" - }, - "name": "HDFView Plugin", - "description": "This Java-language software plug-in to HDFView provides an interface for two versions of hierarchical data formats (HDF 4 and HDF 5). Please visit the following URL for more information: http://opensource.gsfc.nasa.gov/projects/HDF/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/IRC/index.php", "tags": [ "NASA", "GSFC", "Open Source", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb615d" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software program takes an XML representation of the contents of a Hierarchical Data Format-Earth Observing System (HDF-EOS) file and recreates the file from that description. Please visit the following URL for additional information: http://opensource.gsfc.nasa.gov/projects/xml2he/index.php", + "identifier": "GSC-15017-1", + "laborHours": 0, + "name": "XML to HDF-EOS Convertor", "organization": "GSFC", - "identifier": "GSC-14948-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/HDF/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/HDF/HDFNOSA.rtf", + "URL": "https://opensource.gsfc.nasa.gov/projects/xml2he/xml2he_NOSA_1.3O.rtf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb615f" + "usageType": "openSource" }, - "name": "Interoperable Remote Component (IRC)", - "description": "IRC provides robust interactive and distributed control/monitoring of remote instruments. The IRC architecture combines the processing capabilities of Java with the power of XML to express hierarchical data in a human-readable, platform-independent format. For additional information, please visit: http://opensource.gsfc.nasa.gov/projects/IRC/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/xml2he/index.php", "tags": [ "NASA", "GSFC", "Open Source", - "Operations" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb615e" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This Java-language software plug-in to HDFView provides an interface for two versions of hierarchical data formats (HDF 4 and HDF 5). Please visit the following URL for more information: http://opensource.gsfc.nasa.gov/projects/HDF/index.php", + "identifier": "GSC-14948-1", + "laborHours": 0, + "name": "HDFView Plugin", "organization": "GSFC", - "identifier": "GSC-14308-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/IRC/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/IRC/NASA%20Open%20Source%20Agreement%20IRC.txt", + "URL": "https://opensource.gsfc.nasa.gov/projects/HDF/HDFNOSA.rtf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/HDF/index.php", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6160" }, - "name": "NASA.rb (formerly fUnit)", - "description": "NASA.rb (formerly fUnit) is a collection of Fortran modules that provide a framework for automating the construction, execution, and reporting of unit tests for Fortran software applications. 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Support is provided for several aspects of unit testing that are peculiar to scientific technical computing including distributing jparallel applications and parameterized behavior.", "identifier": "GSC-15137-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/FUNIT/", + "laborHours": 0, + "name": "NASA.rb (formerly fUnit)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.gsfc.nasa.gov/projects/FUNIT/SUA%20Open%20Source%20FUNIT%20GSC15137.doc", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/FUNIT/", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6161" }, - "name": "NASA Forecast Model Web (NFMW) Map Service", - "description": "NFMW reads weather forecast models outputs; subsets the data to the region of interest; interpolates the data to the specified size; generates a visualization of the data using colors, contour lines, or arrows; and sends the visualization to the client. 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More information can be found at: http://opensource.gsfc.nasa.gov/projects/NFMW/", "identifier": "GSC-15276-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/NFMW/index.php", + "laborHours": 0, + "name": "NASA Forecast Model Web (NFMW) Map Service", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.gsfc.nasa.gov/projects/NFMW/nfmw_nosa.doc", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6162" - }, - "name": "MATLAB-Oslo Toolkit", - "description": "This toolkit is a set of MATLAB scripts and functions that enable rapid transfer of optical system and performance data from Oslo optical software into the MATLAB environment. Typical applications include: extracting prescription data into MATLAB to confirm consistency of various delivered models; perturbing the models and performing various analyses in support of integrated modeling activities; and enabling a MATLAB-driven optical model for integrated system-level modeling of wavefront sensing and control. The toolkit can be downloaded at http://opensource.gsfc.nasa.gov/projects/Matlab/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/NFMW/index.php", "tags": [ "NASA", "GSFC", "Open Source", - "Data and Image Processing" - ], + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6163" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software library provides uniform access to HDF-EOS2 and HDF-EOS5 files through one set of application program interface (API) calls. Without the library, programs would have to be written twice to cover both HDF-EOS2 and HDF-EOS5 files. http://opensource.gsfc.nasa.gov/projects/HDF-EOS2/index.php", + "identifier": "GSC-15008-1", + "laborHours": 0, + "name": "HDF-EOS2 and HDF-EOS5 Compatibility Library", "organization": "GSFC", - "identifier": "GSC-15138-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/Matlab/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/Matlab/Matlab_nosa.doc", + "URL": "https://opensource.gsfc.nasa.gov/projects/HDF-EOS2/HDF-EOS2_NOSA_1.3.rtf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6163" + "usageType": "openSource" }, - "name": "HDF-EOS2 and HDF-EOS5 Compatibility Library", - "description": "This software library provides uniform access to HDF-EOS2 and HDF-EOS5 files through one set of application program interface (API) calls. Without the library, programs would have to be written twice to cover both HDF-EOS2 and HDF-EOS5 files. http://opensource.gsfc.nasa.gov/projects/HDF-EOS2/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/HDF-EOS2/index.php", "tags": [ "NASA", "GSFC", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6162" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This toolkit is a set of MATLAB scripts and functions that enable rapid transfer of optical system and performance data from Oslo optical software into the MATLAB environment. Typical applications include: extracting prescription data into MATLAB to confirm consistency of various delivered models; perturbing the models and performing various analyses in support of integrated modeling activities; and enabling a MATLAB-driven optical model for integrated system-level modeling of wavefront sensing and control. The toolkit can be downloaded at http://opensource.gsfc.nasa.gov/projects/Matlab/index.php", + "identifier": "GSC-15138-1", + "laborHours": 0, + "name": "MATLAB-Oslo Toolkit", "organization": "GSFC", - "identifier": "GSC-15008-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/HDF-EOS2/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/HDF-EOS2/HDF-EOS2_NOSA_1.3.rtf", + "URL": "https://opensource.gsfc.nasa.gov/projects/Matlab/Matlab_nosa.doc", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/Matlab/index.php", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6164" }, - "name": "User-Friendly Metadata", - "description": "The User-friendly Metadata (UFM) tool functions as a filter. The tool accepts an ODL file as input and generates a simple HTML representation of the ODL as output. Command-line options provide a user with the ability to modify the program's functionality. Please visit: http://opensource.gsfc.nasa.gov/projects/UFM/index.php", - "tags": [ - "NASA", - "GSFC", - "Open Source", - "Data Servers Processing and Handling" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The User-friendly Metadata (UFM) tool functions as a filter. The tool accepts an ODL file as input and generates a simple HTML representation of the ODL as output. Command-line options provide a user with the ability to modify the program's functionality. Please visit: http://opensource.gsfc.nasa.gov/projects/UFM/index.php", "identifier": "GSC-15014-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/UFM/index.php", + "laborHours": 0, + "name": "User-Friendly Metadata", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.gsfc.nasa.gov/projects/UFM/User%20Friendly%20Metadata", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6165" - }, - "name": "HDF-EOS5 Validator", - "description": "This software allows generators of HDF-EOS data products to encode product requirement specifications in XML. The tool will then mechanically check product files against those requirements. For more information, please visit: http://opensource.gsfc.nasa.gov/projects/Validator/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/UFM/index.php", "tags": [ "NASA", "GSFC", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6165" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software allows generators of HDF-EOS data products to encode product requirement specifications in XML. The tool will then mechanically check product files against those requirements. For more information, please visit: http://opensource.gsfc.nasa.gov/projects/Validator/index.php", "identifier": "GSC-15015-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/Validator/index.php", + "laborHours": 0, + "name": "HDF-EOS5 Validator", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.gsfc.nasa.gov/projects/Validator/validator_NOSA_1.3.rtf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6166" + "usageType": "openSource" }, - "name": "Hierarchical Data Format Earth Observing System (HDF-EOS) XML Document-Type Definitions and Schemas", - "description": "An XML standard has been developed for the HDF-EOS5 file format using document-type definitions and schemas. Users can transform HDF5 files into XML format and vice versa. For more information, please visit: http://opensource.gsfc.nasa.gov/projects/XML_DTD_Schemas/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/Validator/index.php", "tags": [ "NASA", "GSFC", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6167" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", - "identifier": "GSC-15016-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/XML_DTD_Schemas/index.php", - "permissions": { - "licenses": [ - { - "URL": "https://opensource.gsfc.nasa.gov/projects/XML_DTD_Schemas/XML_DTD_Schemas_NOSA_1.3.rtf", - "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6167" }, - "name": "Hierarchical Data Format Earth Observing System (HDF-EOS) Metadata Updater (HEMU)", "description": "HDF-EOS Metadata Updater (HEMU) enables users to modify metadata inside an HDF-EOS file (either HDF-EOS2 and HDF-EOS5). The tool can be used to extract metadata from a dataset to a text file that can then be modified with any text editor; replace metadata with text from an external file; or update metadata with text from an external file. For more information, please visit: http://opensource.gsfc.nasa.gov/projects/hemu/index.php", - "tags": [ - "NASA", - "GSFC", - "Open Source", - "Data Servers Processing and Handling" - ], - "contact": { - "email": "gsfc-softwarerequest@mail.nasa.gov" - }, - "organization": "GSFC", "identifier": "GSC-15010-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/hemu/index.php", + "laborHours": 0, + "name": "Hierarchical Data Format Earth Observing System (HDF-EOS) Metadata Updater (HEMU)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.gsfc.nasa.gov/projects/hemu/hemu_NOSA_1.3.rtf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6168" - }, - "name": "Hierarchical Data Format Earth Observing System (HDF-EOS) Web Server", - "description": "This shell script chains together existing data usability group tools to: extract ODL metadata from an HDF-EOS file; convert the metadata to XML; reformat the XML into HTML; publish the HTML and the original HDF-EOS file to a Web server and an OPeNDAP server; and reformat the XML and submit it to the Earth Observing System Clearing House (ECHO). For more information, please visit: http://opensource.gsfc.nasa.gov/projects/heserve/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/hemu/index.php", "tags": [ "NASA", "GSFC", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6166" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "An XML standard has been developed for the HDF-EOS5 file format using document-type definitions and schemas. Users can transform HDF5 files into XML format and vice versa. 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For more information, please visit: http://opensource.gsfc.nasa.gov/projects/heserve/index.php", + "identifier": "GSC-15011-1", + "laborHours": 0, + "name": "Hierarchical Data Format Earth Observing System (HDF-EOS) Web Server", "organization": "GSFC", - "identifier": "GSC-15012-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/metacheck/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/metacheck/metacheck_NOSA_1.3.rtf", + "URL": "https://opensource.gsfc.nasa.gov/projects/heserve/heserve_NOSA_1.3.rtf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/heserve/index.php", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb616a" }, - "name": "ODL-to-XML Converter", - "description": "This command-line Java-based utility converts ODL Hierarchical Data Format-Earth Observing Satellite (HDFEOS) metadata file to an HDFEOS XML file. 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Typical applications include: extracting prescription data into MATLAB to confirm consistency of various delivered models; perturbing the models and performing various analyses such as ray tracing or generation of point-spread functions in support of integrated modeling activities; and enabling a MATLAB-driven optical model for integrated system-level modeling of wavefront sensing and control. The toolkit can be downloaded at: http://opensource.gsfc.nasa.gov/projects/Matlab_Code_V/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/hdfeos2netcdf/index.php", "tags": [ "NASA", "GSFC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb616e" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "RETRO offers methods and techniques for information retrieval (IR), including vector retrieval and probabilistic retrieval. The technology can be downloaded at: http://opensource.gsfc.nasa.gov/projects/RETRO/index.php", + "identifier": "GSC-14976-1", + "laborHours": 0, + "name": "Requirements Tracing On Target (RETRO)", "organization": "GSFC", - "identifier": "GSC-15140-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/Matlab_Code_V/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/Matlab_Code_V/matlab_code_v_nosa.doc", + "URL": "https://opensource.gsfc.nasa.gov/projects/RETRO/RETRO_NOSA.doc", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb616e" + "usageType": "openSource" }, - "name": "Requirements Tracing On Target (RETRO)", - "description": "RETRO offers methods and techniques for information retrieval (IR), including vector retrieval and probabilistic retrieval. 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Please visit the following URL for additional information: http://opensource.gsfc.nasa.gov/projects/GPM/", + "identifier": "GSC-15469-1", + "laborHours": 0, + "name": "Global Precipitation Space and Ground Radar Comparison Software", "organization": "GSFC", - "identifier": "GSC-14976-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/RETRO/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/RETRO/RETRO_NOSA.doc", + "URL": "https://opensource.gsfc.nasa.gov/projects/GPM/GPM_NOSA.doc", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb616f" + "usageType": "openSource" }, - "name": "GEOS-5 Global Change Master Modeling Software", - "description": "GEOS-5 is a next-generation circulation model. 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Please visit the following URL for additional information: http://opensource.gsfc.nasa.gov/projects/GMAT/index.php", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/Matlab_Code_V/index.php", "tags": [ "NASA", "GSFC", "Open Source", - "Design and Integration Tools" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb616b" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This program translates an XML representation of Hierarchical Data Format-Earth Observing System (HDF-EOS) ODL metadata back to the ODL format. Please visit the following URL for additional information: http://opensource.gsfc.nasa.gov/projects/xml2odl/index.php", + "identifier": "GSC-15006-1", + "laborHours": 0, + "name": "XML to ODL Convertor", "organization": "GSFC", - "identifier": "GSC-16228-1", - "repositoryURL": "https://sourceforge.net/projects/gmat/files/GMAT/GMAT-R2011a", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://sourceforge.net/p/gmat/git/ci/GMAT-R2016a/tree/License.txt", + "URL": "https://opensource.gsfc.nasa.gov/projects/xml2odl/xml2odl_NOSA_1.3.rtf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/xml2odl/index.php", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6172" }, - "name": "Range Safety Algorithm Software Module for an Autonomous Flight Safety System", + "contact": { + "email": "gsfc-softwarerequest@mail.nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, "description": "This software library was developed to mitigate the public safety risks of hazards associated with the flight of expendable launch vehicles and other unmanned flight vehicles. The software encapsulates the various constructs and algorithms required to accomplish Time Space Position Information (TSPI) data management from multiple tracking sources. At its core, the technology evaluates various user-configurable rule sets that govern the qualification of TSPI data sources; provides a pre-launch autonomous hold-launch function; performs flight-monitoring/flight-termination functions; and provides end-of-mission safing.", + "identifier": "GSC-15594-1", + "laborHours": 0, + "name": "Range Safety Algorithm Software Module for an Autonomous Flight Safety System", + "organization": "GSFC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/GSC-15594-1", "tags": [ "NASA", "GSFC", "General Public Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6171" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "GMAT is a software system for trajectory optimization, mission analysis, trajectory estimation, and prediction. 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The tool unites the search function with various subsetters to deliver a single, simple, seamless process. SSW uses OpenSearch to query the Earth Observing System Clearing House (ECHO) for granules and then employs individual subset agents to submit requests. The SSW currently has 11 agents to interface with different subsetters, which support the subsetting of 217 EOSDIS data sets. 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Users can swipe between space weather data products to see the latest available data; pan and zoom to see a detailed view of any particular product; rearrange and add space weather data products to the application layout; and browse a data catalog by category. ", - "tags": [ - "NASA", - "GSFC", - "General Public Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Developed for the Community Coordinated Modeling Center, this Android application displays space weather information. Users can swipe between space weather data products to see the latest available data; pan and zoom to see a detailed view of any particular product; rearrange and add space weather data products to the application layout; and browse a data catalog by category. ", "identifier": "GSC-16321-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16321-1", + "laborHours": 0, + "name": "Space Weather Android App", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16321-1", + "tags": [ + "NASA", + "GSFC", + "General Public Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6175" }, - "name": "What's Up at Wallops (Android App)", - "description": "What's Up at Wallops enables individuals to experience launches and flight projects as spectators. This mobile application provides simple, intuitive, dynamic tools that help to answer such questions as: When is the next launch? What is its purpose? What can I expect to see? Where should I look? How can I follow along with the countdown?", - "tags": [ - "NASA", - "GSFC", - "General Public Release", - "Business Systems and Project Management" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "What's Up at Wallops enables individuals to experience launches and flight projects as spectators. This mobile application provides simple, intuitive, dynamic tools that help to answer such questions as: When is the next launch? What is its purpose? What can I expect to see? Where should I look? How can I follow along with the countdown?", "identifier": "GSC-16683-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16683-1", + "laborHours": 0, + "name": "What's Up at Wallops (Android App)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6176" + "usageType": "governmentWideReuse" }, - "name": "What's Up at Wallops (iTunes App for iPhone/iPad)", - "description": "The public community has a desire and an expectation to understanding more about the purpose and relevance of our missions. Furthermore, the public community has an interest in knowing more about the technical and logistical details about our missions, especially as those details enable them to experience launches and flight projects as spectators. This mobile application will provide simple, intuitive, dynamic tools that would provide an assortment of material to the public to answer a variety of questions: Whens the next launch? Why are you doing that? What should I expect to see? Where should I look? How can I follow along with the countdown?", + "repositoryURL": "https://software.nasa.gov/software/GSC-16683-1", "tags": [ "NASA", "GSFC", "General Public Release", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6176" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The public community has a desire and an expectation to understanding more about the purpose and relevance of our missions. Furthermore, the public community has an interest in knowing more about the technical and logistical details about our missions, especially as those details enable them to experience launches and flight projects as spectators. This mobile application will provide simple, intuitive, dynamic tools that would provide an assortment of material to the public to answer a variety of questions: Whens the next launch? Why are you doing that? What should I expect to see? Where should I look? How can I follow along with the countdown?", "identifier": "GSC-16682-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16682-1", + "laborHours": 0, + "name": "What's Up at Wallops (iTunes App for iPhone/iPad)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6177" + "usageType": "governmentWideReuse" }, - "name": "Spinoff 2015 iPad app", - "description": "This tool is an iPad version of the Spinoff 2015 publication, featuring shortened versions of Spinoff articles and multimedia.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16682-1", "tags": [ "NASA", "GSFC", "General Public Release", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6177" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "This tool is an iPad version of the Spinoff 2015 publication, featuring shortened versions of Spinoff articles and multimedia.", "identifier": "GSC-17366-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17366-1", + "laborHours": 0, + "name": "Spinoff 2015 iPad app", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-17366-1", + "tags": [ + "NASA", + "GSFC", + "General Public Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6178" }, - "name": "Core Flight Executive (cFE)", - "description": "The Core Flight Executive (cFE) provides software bus, time, event, executive, table, and file services, and it defines the application programming interface (API) for each set function. Applications subscribe to cFE services at runtime, making system modifications easy. Facilitating rapid prototyping, new applications can be compiled, linked, loaded, and started without requiring the entire system to be rebuilt.", - "tags": [ - "NASA", - "GSFC", - "Open Source", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Core Flight Executive (cFE) provides software bus, time, event, executive, table, and file services, and it defines the application programming interface (API) for each set function. Applications subscribe to cFE services at runtime, making system modifications easy. Facilitating rapid prototyping, new applications can be compiled, linked, loaded, and started without requiring the entire system to be rebuilt.", "identifier": "GSC-16232-1", - "repositoryURL": "https://sourceforge.net/projects/coreflightexec/files/cFE-6.1.1/", + "laborHours": 0, + "name": "Core Flight Executive (cFE)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://sourceforge.net/projects/coreflightexec/files/cFE-6.1.1/", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6179" }, - "name": "EEPROM File System", - "description": "The EEPROM File System (EEFS) is a simple, reliable file system for embedded systems. The primary purpose of the EEFS is to provide a file system abstraction for EEPROM or PROM memories that is simple, efficient, and can be proven to be reliable. The EEFS can be used on embedded systems where a file system is needed to access data from EEPROM, PROM, or RAM memory, but otherwise might not have the resources to deploy a full file system such as the MSDOS file system. The EEPROM file system can also be used in systems where the ability to dump, patch, and diagnose files is required. ", - "tags": [ - "NASA", - "GSFC", - "Open Source", - "Data Servers Processing and Handling" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The EEPROM File System (EEFS) is a simple, reliable file system for embedded systems. The primary purpose of the EEFS is to provide a file system abstraction for EEPROM or PROM memories that is simple, efficient, and can be proven to be reliable. The EEFS can be used on embedded systems where a file system is needed to access data from EEPROM, PROM, or RAM memory, but otherwise might not have the resources to deploy a full file system such as the MSDOS file system. The EEPROM file system can also be used in systems where the ability to dump, patch, and diagnose files is required. ", "identifier": "GSC-16852-1", - "repositoryURL": "https://github.com/nasa/eefs/", + "laborHours": 0, + "name": "EEPROM File System", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } + "repositoryURL": "https://github.com/nasa/eefs/", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb617a" }, - "name": "Assert-Based Unit Test Tools", - "description": "The ut-assert unit test tools provide a unit test framework and a collection of utilities that are designed to facilitate unit testing. These tools implement an assertion-based testing philosophy that requires the developer to explicitly write verification statements that assert whether a condition is true or false. This approach is much different than the Flight Software Branch's historical approach to unit testing that creates a log file that requires developer analysis in order to determine whether a test passed or failed. In order to use the tools a developer populates the framework with their unit tests and links with the ut-asssert library to create an executable. ", - "tags": [ - "NASA", - "GSFC", - "Open Source", - "Design and Integration Tools" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", - "identifier": "GSC-16689-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/ut-assert/index.php", - "permissions": { - "licenses": [ - { - "URL": "https://opensource.gsfc.nasa.gov/projects/ut-assert/ut-assert_nosa.pdf", - "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb617b" }, - "name": "Worldview satellite imagery browsing and downloading tool", - "description": "Worldview is a software tool designed for interactively browsing and downloading imagery from NASA's Earth observing satellites. Building upon a set of open source mapping and user interface libraries, it provides an environment to visually discover interesting phenomena as observed by NASA satellites, then download the data for further analysis. It was originally designed to address the needs of the near real time applications community to provide relevant information for time-critical scenarios such as wildfire and flood management. As such, satellite imagery is available to be viewed in Worldview within four hours of observation, the imagery can be viewed in its highest, or native, resolution, and the imagery can be panned and zoomed rapidly through space and time to find the most relevant/cloud-free/etc information available.", + "description": "The ut-assert unit test tools provide a unit test framework and a collection of utilities that are designed to facilitate unit testing. These tools implement an assertion-based testing philosophy that requires the developer to explicitly write verification statements that assert whether a condition is true or false. This approach is much different than the Flight Software Branch's historical approach to unit testing that creates a log file that requires developer analysis in order to determine whether a test passed or failed. In order to use the tools a developer populates the framework with their unit tests and links with the ut-asssert library to create an executable. ", + "identifier": "GSC-16689-1", + "laborHours": 0, + "name": "Assert-Based Unit Test Tools", + "organization": "GSFC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://opensource.gsfc.nasa.gov/projects/ut-assert/ut-assert_nosa.pdf", + "name": "NASA v3" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/ut-assert/index.php", "tags": [ "NASA", "GSFC", "Open Source", - "Data and Image Processing" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb617b" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "Worldview is a software tool designed for interactively browsing and downloading imagery from NASA's Earth observing satellites. Building upon a set of open source mapping and user interface libraries, it provides an environment to visually discover interesting phenomena as observed by NASA satellites, then download the data for further analysis. It was originally designed to address the needs of the near real time applications community to provide relevant information for time-critical scenarios such as wildfire and flood management. As such, satellite imagery is available to be viewed in Worldview within four hours of observation, the imagery can be viewed in its highest, or native, resolution, and the imagery can be panned and zoomed rapidly through space and time to find the most relevant/cloud-free/etc information available.", "identifier": "GSC-17111-1", - "repositoryURL": "https://github.com/nasa-gibs/worldview", + "laborHours": 0, + "name": "Worldview satellite imagery browsing and downloading tool", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa-gibs/worldview-options-eosdis/blob/master/LICENSE.md", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb617c" + "usageType": "openSource" }, - "name": "MYSTRAN", - "description": "MYSTRAN is a Finite Element Analysis (FEA) processor. MYSTRAN takes NASTRAN data decks as input and processes them to generate results files based on the inputs. NASTRAN was originally developed at NASA GSFC in the 1960's. The input files describe the mechanical nature of some piece of hardware and the loads or driving inputs that cause some reaction. With this input MYSTRAN computes the responses to the driving inputs. The theory and research for FEA analysis has been developed over decades.", + "repositoryURL": "https://github.com/nasa-gibs/worldview", "tags": [ "NASA", "GSFC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb617d" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "This software interface provides a social and collaborative environment to allow end-users such as GEOSS users to discover, visualize, and access Earth Science information on demand from simple browsers and allow them to share the resulting products with their friends and/or Community of Interest through social networks.", + "identifier": "GSC-17162-1", + "laborHours": 0, + "name": "Open GeoSocial Consumer Application", "organization": "GSFC", - "identifier": "GSC-17173-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/mystran/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/mystran/mystran_nosa.pdf", + "URL": "https://opensource.gsfc.nasa.gov/projects/gsca/apache_license.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb617d" + "usageType": "openSource" }, - "name": "Open GeoSocial Consumer Application", - "description": "This software interface provides a social and collaborative environment to allow end-users such as GEOSS users to discover, visualize, and access Earth Science information on demand from simple browsers and allow them to share the resulting products with their friends and/or Community of Interest through social networks.", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/gsca/index.php", "tags": [ "NASA", "GSFC", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb617c" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "MYSTRAN is a Finite Element Analysis (FEA) processor. MYSTRAN takes NASTRAN data decks as input and processes them to generate results files based on the inputs. NASTRAN was originally developed at NASA GSFC in the 1960's. The input files describe the mechanical nature of some piece of hardware and the loads or driving inputs that cause some reaction. With this input MYSTRAN computes the responses to the driving inputs. The theory and research for FEA analysis has been developed over decades.", + "identifier": "GSC-17173-1", + "laborHours": 0, + "name": "MYSTRAN", "organization": "GSFC", - "identifier": "GSC-17162-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/gsca/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/gsca/apache_license.pdf", + "URL": "https://opensource.gsfc.nasa.gov/projects/mystran/mystran_nosa.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb617e" + "usageType": "openSource" }, - "name": "Vectorization of Global Flood Monitoring System using Topojson", - "description": "This capability allows for the generation of vectors by reading the Global Flood Monitoring data, processing the data and generating aTopoJSON encoded file for visualization on the web.", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/mystran/index.php", "tags": [ "NASA", "GSFC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb617f" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The SBN serves as a plug-in to the cFE framework to transfer messages across process/processor interfaces. The technology has three primary functions: to establish and maintain a connection to each peer over available process/processor interfaces; to distribute and maintain a subscription message database for each peer; and to distribute messages to peers that have subscribed to message identifiers.", + "identifier": "GSC-16917-1", + "laborHours": 0, + "name": "Core Flight System (CFS) Software Bus Network (SBN) Application, Version 1.0", "organization": "GSFC", - "identifier": "GSC-17169-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/vgfms/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/vgfms/apache_license.pdf", + "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb617f" + "usageType": "openSource" }, - "name": "Core Flight System (CFS) Software Bus Network (SBN) Application, Version 1.0", - "description": "The SBN serves as a plug-in to the cFE framework to transfer messages across process/processor interfaces. The technology has three primary functions: to establish and maintain a connection to each peer over available process/processor interfaces; to distribute and maintain a subscription message database for each peer; and to distribute messages to peers that have subscribed to message identifiers.", + "repositoryURL": "https://sourceforge.net/projects/cfs-sbn", "tags": [ "NASA", "GSFC", "Open Source", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb617e" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "This capability allows for the generation of vectors by reading the Global Flood Monitoring data, processing the data and generating aTopoJSON encoded file for visualization on the web.", + "identifier": "GSC-17169-1", + "laborHours": 0, + "name": "Vectorization of Global Flood Monitoring System using Topojson", "organization": "GSFC", - "identifier": "GSC-16917-1", - "repositoryURL": "https://sourceforge.net/projects/cfs-sbn", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.org/licenses/NASA-1.3", + "URL": "https://opensource.gsfc.nasa.gov/projects/vgfms/apache_license.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/vgfms/index.php", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6180" }, - "name": "Core Flight System (CFS) CFDP Version 2", - "description": "The CFDP application provides the capability to transmit and receive files to/from the ground. Tables are used to allow flexibility in specifying directory priorities and configurations.", - "tags": [ - "NASA", - "GSFC", - "Open Source", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The CFDP application provides the capability to transmit and receive files to/from the ground. Tables are used to allow flexibility in specifying directory priorities and configurations.", "identifier": "GSC-16125-1", - "repositoryURL": "https://sourceforge.net/projects/cfs-cfdp", + "laborHours": 0, + "name": "Core Flight System (CFS) CFDP Version 2", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6181" + "usageType": "openSource" }, - "name": "Core Flight System (CFS) Checksum Application Version 2", - "description": "Checksum (CS) is one of the reusable applications that make up the Core Flight System (CFS). The technology performs memory integrity management by verifying the contents of critical flight memory regions. Unexpected changes in memory (i.e., due to an SEU) are reported to ground operators.", + "repositoryURL": "https://sourceforge.net/projects/cfs-cfdp", "tags": [ "NASA", "GSFC", "Open Source", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6181" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Checksum (CS) is one of the reusable applications that make up the Core Flight System (CFS). The technology performs memory integrity management by verifying the contents of critical flight memory regions. Unexpected changes in memory (i.e., due to an SEU) are reported to ground operators.", "identifier": "GSC-15996-1", - "repositoryURL": "https://sourceforge.net/projects/cfs-cs", + "laborHours": 0, + "name": "Core Flight System (CFS) Checksum Application Version 2", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6182" + "usageType": "openSource" }, - "name": "Core Flight System (CFS) Data Storage (DS) Application Version 2", - "description": "The DS application provides the ability to store data (i.e., messages) into files. Tables are used to provide the flexibility for specifying messages.", + "repositoryURL": "https://sourceforge.net/projects/cfs-cs", "tags": [ "NASA", "GSFC", "Open Source", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6182" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The DS application provides the ability to store data (i.e., messages) into files. Tables are used to provide the flexibility for specifying messages.", "identifier": "GSC-16126-1", - "repositoryURL": "https://sourceforge.net/projects/cfs-ds", + "laborHours": 0, + "name": "Core Flight System (CFS) Data Storage (DS) Application Version 2", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6183" + } + ], + "usageType": "openSource" }, - "name": "Core Flight System (CFS) File Manager (FM) Application Version 2", - "description": "FM provides the user commands to perform the following operations: copy file, move file, rename file, delete file(s), close file, concatenate file, decompress file, delete directory contents, create directory, remove directory, obtain file information, obtain open file listing, and obtain directory listings.", + "repositoryURL": "https://sourceforge.net/projects/cfs-ds", "tags": [ "NASA", "GSFC", "Open Source", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6184" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The CFS Housekeeping application provides the ability to organize data from various packets into new packets in order to best utilize the telemetry bandwidth available for a mission.", + "identifier": "GSC-16127-1", + "laborHours": 0, + "name": "Core Flight System (CFS) Housekeeping (HK) Application Version 2", "organization": "GSFC", - "identifier": "GSC-16007-1", - "repositoryURL": "https://sourceforge.net/projects/cfs-fm", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6184" + "usageType": "openSource" }, - "name": "Core Flight System (CFS) Housekeeping (HK) Application Version 2", - "description": "The CFS Housekeeping application provides the ability to organize data from various packets into new packets in order to best utilize the telemetry bandwidth available for a mission.", + "repositoryURL": "https://sourceforge.net/projects/cfs-hk", "tags": [ "NASA", "GSFC", "Open Source", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6183" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "FM provides the user commands to perform the following operations: copy file, move file, rename file, delete file(s), close file, concatenate file, decompress file, delete directory contents, create directory, remove directory, obtain file information, obtain open file listing, and obtain directory listings.", + "identifier": "GSC-16007-1", + "laborHours": 0, + "name": "Core Flight System (CFS) File Manager (FM) Application Version 2", "organization": "GSFC", - "identifier": "GSC-16127-1", - "repositoryURL": "https://sourceforge.net/projects/cfs-hk", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6185" + "usageType": "openSource" }, - "name": "Core Flight System (CFS) Health and Safety Application Version 2", - "description": "The plug-and-play CFS Health and Safety application is compatible with the Core Flight Executive (cFE) and uses the Operating System Abstraction Layer (OSAL), both of which were developed by Goddard Space Flight Center in order to provide a reusable, platform-independent, mission-independent, layered architecture for hosting applications. The technology can be used for any government or commercial spacecraft. Please visit the following URL for additional information: http://sourceforge.net/projects/coreflightexec/files/cFE-6.1.1/", + "repositoryURL": "https://sourceforge.net/projects/cfs-fm", "tags": [ "NASA", "GSFC", "Open Source", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6187" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Memory Dwell application telemeters the contents of table-defined addresses at a table-defined dwell rate. Addresses can be processed using symbols if the target processor/operating system includes symbols.", + "identifier": "GSC-16012-1", + "laborHours": 0, + "name": "Core Flight System (CFS) Memory Dwell Application Version 2", "organization": "GSFC", - "identifier": "GSC-16151-1", - "repositoryURL": "https://sourceforge.net/projects/cfs-hs", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6186" + "usageType": "openSource" }, - "name": "Core Flight System (CFS) Limit Checker (LC) Application Version 2", - "description": "The Limit Checker (LC) application is responsible for monitoring telemetry values.", + "repositoryURL": "https://sourceforge.net/projects/cfs-md", "tags": [ "NASA", "GSFC", "Open Source", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6186" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Limit Checker (LC) application is responsible for monitoring telemetry values.", "identifier": "GSC-16010-1", - "repositoryURL": "https://sourceforge.net/projects/cfs-lc", + "laborHours": 0, + "name": "Core Flight System (CFS) Limit Checker (LC) Application Version 2", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6187" - }, - "name": "Core Flight System (CFS) Memory Dwell Application Version 2", - "description": "The Memory Dwell application telemeters the contents of table-defined addresses at a table-defined dwell rate. 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Please visit the following URL for additional information: http://sourceforge.net/projects/coreflightexec/files/cFE-6.1.1/", + "identifier": "GSC-16151-1", + "laborHours": 0, + "name": "Core Flight System (CFS) Health and Safety Application Version 2", "organization": "GSFC", - "identifier": "GSC-16012-1", - "repositoryURL": "https://sourceforge.net/projects/cfs-md", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6188" + "usageType": "openSource" }, - "name": "Core Flight System (CFS) Memory Manager Application Version 2", - "description": "The Memory Manager application processes commands, generally from the ground, in order to dump the contents of a memory location, dump the contents of a range of memory locations, load a memory location with specified data, load a range of memory with specified data, or fill an area of memory with the specified fill pattern. Operations can be performed on non-volatile, volatile, and memory mapped I/O.", + "repositoryURL": "https://sourceforge.net/projects/cfs-hs", "tags": [ "NASA", "GSFC", "Open Source", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6188" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Memory Manager application processes commands, generally from the ground, in order to dump the contents of a memory location, dump the contents of a range of memory locations, load a memory location with specified data, load a range of memory with specified data, or fill an area of memory with the specified fill pattern. Operations can be performed on non-volatile, volatile, and memory mapped I/O.", "identifier": "GSC-16011-1", - "repositoryURL": "https://sourceforge.net/projects/cfs-mm/", + "laborHours": 0, + "name": "Core Flight System (CFS) Memory Manager Application Version 2", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6189" + "usageType": "openSource" }, - "name": "Core Flight System (CFS) Stored Command (SC) Application Version 2", - "description": "The CFS SC application provides the ability to execute onboard absolute-time and relative-time command sequences. The technology offers a generic implementation that can be configured by a user to fit the needs of a specific mission.", + "repositoryURL": "https://sourceforge.net/projects/cfs-mm/", "tags": [ "NASA", "GSFC", "Open Source", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6189" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The CFS SC application provides the ability to execute onboard absolute-time and relative-time command sequences. 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The technology is configurable and table-driven to provide greater flexibility.", + "repositoryURL": "https://sourceforge.net/projects/cfs-sc", "tags": [ "NASA", "GSFC", "Open Source", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb618a" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Scheduler application uses a one-second major timeframe, which is divided into a designer-determined collection of equally divided minor timeframes. 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Skill of weather forecasting models can be evaluated in terms of satellite-observed multi-sensor radiance levels. Alternatively, the remote sensing community can more readily utilize atmospheric model simulations to develop and test their retrieval algorithms for application of Earth science.", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/emtg/index.php", "tags": [ "NASA", "GSFC", "Open Source", - "Design and Integration Tools" - ], + "Aeronautics" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb618d" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "ILIADS 3.0 provides the data management capabilities to access CxP-vetted lunar data sets from the LMMP-provided Data Portal and the LMMP-provided OnMoon lunar data product server. (LMMP stands for Lunar Mapping and Modeling Project.) 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(LMMP stands for Lunar Mapping and Modeling Project.) It also provides specific quantitative analysis functions to meet the stated LMMP Level 3 functional and performance requirements specifications that were approved by the CxP.", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/ILIADS/index.php", "tags": [ "NASA", "GSFC", "Open Source", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb618c" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Goddard Satellite Data Simulation Unit (SDSU) is a comprehensive unified system of multi-sensor satellite instrumental simulators. Skill of weather forecasting models can be evaluated in terms of satellite-observed multi-sensor radiance levels. Alternatively, the remote sensing community can more readily utilize atmospheric model simulations to develop and test their retrieval algorithms for application of Earth science.", + "identifier": "GSC-15874-1", + "laborHours": 0, + "name": "Goddard Satellite Data Simulation Unit", "organization": "GSFC", - "identifier": "GSC-16210-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/ILIADS/index.php", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/ILIADS/GSC-16210_NOSA.pdf", + "URL": "https://opensource.gsfc.nasa.gov/projects/G-SDSU/G-SDSU_NOSA.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/G-SDSU/", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb618e" }, - "name": "Obs4MIPS", - "description": "This technology is a front end to the Climate Model Output Rewriter (CMOR2) software package. 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Visit the following URL for more information: http://opensource.gsfc.nasa.gov/projects/ODTBX/", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/obs4mips/index.php", "tags": [ "NASA", "GSFC", "Open Source", - "Aeronautics" - ], + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6190" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software enables easy comparison of ground- and space-based radar observations for validation purposes. 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It can be accessed at: http://opensource.gsfc.nasa.gov/projects/GSRadar/", + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/GSRadar/", "tags": [ "NASA", "GSFC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb618f" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Based on MATLAB and Java, the flexible Orbit-Determination Toolbox is intended primarily for the advanced mission analysis that might be performed in the concept exploration, proposal, and early design phases. Visit the following URL for more information: http://opensource.gsfc.nasa.gov/projects/ODTBX/", + "identifier": "GSC-15728-1", + "laborHours": 0, + "name": "Orbit-Determination Toolbox", "organization": "GSFC", - "identifier": "GSC-15738-1", - "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/GSRadar/", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.gsfc.nasa.gov/projects/GSRadar/GS_Radar_NOSA.pdf", + "URL": "https://opensource.gsfc.nasa.gov/projects/ODTBX/ODTBX_NOSA.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://opensource.gsfc.nasa.gov/projects/ODTBX", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6191" }, - "name": "Core Hierarchical Segmentation (HSEG) Software Package", - "description": "This version of HSEG is not subject to patent restrictions. 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The data are displayed three-dimensionally; may be displayed either as connected lines or as points; and allow the rapid determination of vector configurations, correlations between many measurements at multiple points, and global relationships. Please visit the following URL for additional information: http://opensource.gsfc.nasa.gov/projects/visbard/index.php", "identifier": "GSC-15744-1", - "repositoryURL": "https://sourceforge.net/projects/visbard/", + "laborHours": 0, + "name": "Visual System for Browsing, Analysis, and Retrieval of Data (ViSBARD)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6193" + "usageType": "openSource" }, - "name": "Lossless Hyper-/Multi-Spectral Data Compression Software", - "description": "This software performs lossless hyper-spectral and multi-spectral data compression. 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Please visit: http://disc.sci.gsfc.nasa.gov/additional/techlab/s4pa", "identifier": "GSC-15877-1", - "repositoryURL": "https://disc.sci.gsfc.nasa.gov/additional/techlab/s4pa", + "laborHours": 0, + "name": "Simple, Scalable, Script-based Science Processing Archive (S4PA)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://disc.gsfc.nasa.gov/additional/techlab/s4pa/S4PA-3.40.2.tar.gz", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://disc.sci.gsfc.nasa.gov/additional/techlab/s4pa", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6195" }, - "name": "SpaceWire 2014", - "description": "SpaceWire is a spacecraft communication network based in part on the IEEE 1355 standard of communications. 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", "identifier": "GSC-17201-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17201-1", + "laborHours": 0, + "name": "SpaceWire 2014", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-9-3" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-17201-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Release Only", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6196" }, - "name": "GLOBE Program's Data Entry App for iOS", - "description": "The Global Learning and Observations to Benefit the Environment (GLOBE) program is a worldwide hands-on, primary and secondary school-based science and education program. 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The GLOBE Program's Data Entry App for iOS, enables members to enter data to via their iOS devices and when in the field, where they may not have internet connection. Their data will be stored locally on their iOS devices and sent to the GLOBE database once their devices get connected to internet. This project also facilitates data entry by leveraging mobile capabilities including GPS, photography and date/time. ", "identifier": "GSC-17389-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17389-1", + "laborHours": 0, + "name": "GLOBE Program's Data Entry App for iOS", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-18" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6197" + "usageType": "governmentWideReuse" }, - "name": "GLOBE Program's Data Entry App for Android", - "description": "The Global Learning and Observations to Benefit the Environment (GLOBE) program is a worldwide hands-on, primary and secondary school-based science and education program. 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This project also facilitates data entry by leveraging mobile capabilities including GPS, photography and date/time.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17389-1", "tags": [ "NASA", "GSFC", "General Public Release", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6197" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "The Global Learning and Observations to Benefit the Environment (GLOBE) program is a worldwide hands-on, primary and secondary school-based science and education program. The GLOBE Program's Data Entry App for Android, enables members to enter data to via their Android devices and when in the field, where they may not have internet connection. Their data will be stored locally on their Android devices and sent to the GLOBE database once their devices get connected to internet. This project also facilitates data entry by leveraging mobile capabilities including GPS, photography and date/time.", "identifier": "GSC-17390-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17390-1", + "laborHours": 0, + "name": "GLOBE Program's Data Entry App for Android", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-18" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6198" + "usageType": "governmentWideReuse" }, - "name": "GLOBE Program's Citizen Science Cloud App for iOS", - "description": "GLOBE members currently enter their scientific data using a Data Entry tool on GLOBEs site. The GLOBE Cloud Data Entry App will allow non-GLOBE members and GLOBE members to enter cloud observations into their mobile device and send their observations to the GLOBE database. Users will be able to enter the data while the mobile device is not connected to the Internet, with data sent to GLOBE on user command when the device is on the Internet.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17390-1", "tags": [ "NASA", "GSFC", "General Public Release", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6198" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "GLOBE members currently enter their scientific data using a Data Entry tool on GLOBEs site. The GLOBE Cloud Data Entry App will allow non-GLOBE members and GLOBE members to enter cloud observations into their mobile device and send their observations to the GLOBE database. 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By drawing a circle around a point or area of interest on the map, users can obtain an estimate of the total population and land area enclosed within.\r\n\r\n", + "repositoryURL": "https://software.nasa.gov/software/GSC-17391-1", "tags": [ "NASA", "GSFC", "General Public Release", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb619a" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", - "identifier": "GSC-17605-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17605-1", - "permissions": { - "licenses": [ - { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2016-7-18" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb619a" }, - "name": "42: A Comprehensive General-Purpose Simulation of Attitude and Trajectory Dynamics and Control of Multiple Spacecraft Composed of Multiple Rigid or Flexible Bodies", "description": "Simulator of spacecraft attitude, orbit dynamics, and environmental models. 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Using a regionally distributed, percentile-based threshold approach, the model outputs a pixel-by-pixel nowcast in near real-time at a resolution of 30 arcseconds to identify areas of moderate and high landslide hazard. ", + "repositoryURL": "https://disc.sci.gsfc.nasa.gov/additional/techlab/s4pa", "tags": [ "NASA", "GSFC", "Open Source", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6199" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "Hazards and Population Mapper (HazPop) is a free app Developed by the NASA Socioeconomic Data and Applications Center (SEDAC). The App enables users to easily display recent natural hazard data in relationship to population, major infrastructure, and satellite imagery. 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By drawing a circle around a point or area of interest on the map, users can obtain an estimate of the total population and land area enclosed within.\r\n\r\n", + "identifier": "GSC-17605-1", + "laborHours": 0, + "name": "Hazards and Population Mapper (HazPop) Mobile Application for iOS Platform", "organization": "GSFC", - "identifier": "GSC-17452-1", - "repositoryURL": "https://github.com/vightel/ojo-processing", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://www.apache.org/licenses/LICENSE-2.0", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-18" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb619c" + "usageType": "governmentWideReuse" }, - "name": "Earthdata Search Web Application", - "description": "Earthdata Search is a web application enabling users to quickly and intuitively discover, search, visualize, and access Earth Science data in a highly visual manner. It interfaces with and demonstrates current state-of-the-art services provided by NASA EOSDIS such as the Common Metadata Repository (CMR) for sub-second search results, the Global Imagery Browse Services (GIBS) for fast tiled imagery visualizations of data, and OPeNDAP for data access, transformation, and subsetting.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17605-1", "tags": [ "NASA", "GSFC", - "Open Source", + "General Public Release", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb619b" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "This framework integrates a regional landslide susceptibility map and satellite-based rainfall estimates into a binary decision tree model, considering both daily and antecedent rainfall. Using a regionally distributed, percentile-based threshold approach, the model outputs a pixel-by-pixel nowcast in near real-time at a resolution of 30 arcseconds to identify areas of moderate and high landslide hazard. ", + "identifier": "GSC-17452-1", + "laborHours": 0, + "name": "Landslide Hazard Assessment for Situational Awareness (LHASA)", "organization": "GSFC", - "identifier": "GSC-17399-1", - "repositoryURL": "https://search.earthdata.nasa.gov/", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.org/licenses/NASA-1.3", + "URL": "https://www.apache.org/licenses/LICENSE-2.0", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-18" - } + "repositoryURL": "https://github.com/vightel/ojo-processing", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb619d" }, - "name": "Goddard Mission Services Evolution Center (GMSEC) Parameter Display Tool", - "description": "This technology is a GMSEC-compliant software component that enables users to create and view a display page consisting of parameter and telemetry mnemonic values. Both text and color are used to delineate status.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology is a GMSEC-compliant software component that enables users to create and view a display page consisting of parameter and telemetry mnemonic values. Both text and color are used to delineate status.", "identifier": "GSC-16073-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16073-1", + "laborHours": 0, + "name": "Goddard Mission Services Evolution Center (GMSEC) Parameter Display Tool", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb619e" + "usageType": "governmentWideReuse" }, - "name": "Goddard Mission Services Evolution Center (GMSEC) Environmental Diagnostic Analysis Tool (GEDAT), Version 2.0", - "description": "Version 2.0 of GEDAT features: a new tree-table display with selective filtering to support large-scale environments; added displays for CPU, memory, network resource graphing/plotting, server configuration, and message statistics; filtered search capabilities; improved menu-bar navigation capabilities; automatic elevation of errors or critical events; and user-configurable notification timeout monitoring.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16073-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb619c" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "Earthdata Search is a web application enabling users to quickly and intuitively discover, search, visualize, and access Earth Science data in a highly visual manner. It interfaces with and demonstrates current state-of-the-art services provided by NASA EOSDIS such as the Common Metadata Repository (CMR) for sub-second search results, the Global Imagery Browse Services (GIBS) for fast tiled imagery visualizations of data, and OPeNDAP for data access, transformation, and subsetting.", + "identifier": "GSC-17399-1", + "laborHours": 0, + "name": "Earthdata Search Web Application", "organization": "GSFC", - "identifier": "GSC-16276-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16276-1", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" + "URL": "https://opensource.org/licenses/NASA-1.3", + "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://search.earthdata.nasa.gov/", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb619f" + "$oid": "5a3a9b78da833f1e40fb619e" }, - "name": "Core Flight Executive/Core Flight System (cFE/CFS) Evolution for Multi-Core Platforms", - "description": "This development effort modified cFE/CFS flight software components to enable them to run on a multi-core processor or an embedded operating system that supports multi-core processors (e.g., VxWorks 6 and Linux). 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These modifications did not add any additional application functionality to the Operating System Abstraction Layer OSAL or the cFE.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Version 2.0 of GEDAT features: a new tree-table display with selective filtering to support large-scale environments; added displays for CPU, memory, network resource graphing/plotting, server configuration, and message statistics; filtered search capabilities; improved menu-bar navigation capabilities; automatic elevation of errors or critical events; and user-configurable notification timeout monitoring.", + "identifier": "GSC-16276-1", + "laborHours": 0, + "name": "Goddard Mission Services Evolution Center (GMSEC) Environmental Diagnostic Analysis Tool (GEDAT), Version 2.0", "organization": "GSFC", - "identifier": "GSC-16857-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16857-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61a0" - }, - "name": "Integrated Test and Operations System (ITOS), Release 8", - "description": "This ITOS modification features a new-events system that includes tools to allow the user to create old-style log files and manage the log database.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16276-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb619f" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This development effort modified cFE/CFS flight software components to enable them to run on a multi-core processor or an embedded operating system that supports multi-core processors (e.g., VxWorks 6 and Linux). Modified components included: the Operating System Abstraction Layer (OSAL), the Core Flight Executive (cFE), and parts of the Core Flight System (CFS). These modifications did not add any additional application functionality to the Operating System Abstraction Layer OSAL or the cFE.", + "identifier": "GSC-16857-1", + "laborHours": 0, + "name": "Core Flight Executive/Core Flight System (cFE/CFS) Evolution for Multi-Core Platforms", "organization": "GSFC", - "identifier": "GSC-16025-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16025-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61a1" + "usageType": "governmentWideReuse" }, - "name": "Goddard Mission Services Evolution Center (GMSEC) Compliance Test Suite", - "description": "The Compliance Test Suite includes both message publisher and message validator applications. The publisher feature provides a variety of predefined, displayable, and selectable messages. The validator reads a selected message and validates it against a corresponding XML schema. Detailed warnings and errors can be accessed with a double click on any specific message.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16857-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Operations" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61a0" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This ITOS modification features a new-events system that includes tools to allow the user to create old-style log files and manage the log database.", + "identifier": "GSC-16025-1", + "laborHours": 0, + "name": "Integrated Test and Operations System (ITOS), Release 8", "organization": "GSFC", - "identifier": "GSC-16074-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16074-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16025-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61a2" }, - "name": "Data Access Toolkit (DAT) Release 1.0", - "description": "DAT is a software application that performs trending, archive, and data management functions to analyze the performance of the observatory through state of health monitoring using all collected housekeeping data and to manage the storage and distribution of all mission data files.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "DAT is a software application that performs trending, archive, and data management functions to analyze the performance of the observatory through state of health monitoring using all collected housekeeping data and to manage the storage and distribution of all mission data files.", "identifier": "GSC-17291-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17291-1", + "laborHours": 0, + "name": "Data Access Toolkit (DAT) Release 1.0", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-17291-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61a3" }, - "name": "Action Item System, Version 2.0", - "description": "This web application allows users to assign and track action items. Helpful emails are distributed when an action is created, updated, or closed, and reminder emails are sent to assignees when an action item deadline is approaching or has passed.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "This web application allows users to assign and track action items. Helpful emails are distributed when an action is created, updated, or closed, and reminder emails are sent to assignees when an action item deadline is approaching or has passed.", "identifier": "GSC-16768-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16768-1", + "laborHours": 0, + "name": "Action Item System, Version 2.0", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61a4" + "usageType": "governmentWideReuse" }, - "name": "Goddard Mission Services Evolution Center (GMSEC) Criteria Action Table (CAT) Version 5.5", - "description": "The Criteria Action Table is a real-time decision-making component. Using predefined criteria (rules), CAT will ingest messages in real-time, analyze the content and context, and determine if the predefined criteria has been met. If so, an associated set of predefined actions is automatically triggered. Pre-defined actions can also be disabled. A decision-making, action-triggering component, such as CAT, can contribute to system-wide situational awareness, provide system-wide process orchestration, and enable system automation.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16768-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Operations" - ], + "Business Systems and Project Management" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61a1" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Compliance Test Suite includes both message publisher and message validator applications. The publisher feature provides a variety of predefined, displayable, and selectable messages. The validator reads a selected message and validates it against a corresponding XML schema. Detailed warnings and errors can be accessed with a double click on any specific message.", + "identifier": "GSC-16074-1", + "laborHours": 0, + "name": "Goddard Mission Services Evolution Center (GMSEC) Compliance Test Suite", "organization": "GSFC", - "identifier": "GSC-17185-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17185-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61a5" + "usageType": "governmentWideReuse" }, - "name": "Goddard Mission Services Evolution Center (GMSEC) Reusable Events Analysis Toolkit (GREAT) Version 3.0", - "description": "GREAT is a toolkit for event/log messages, supporting single and multiple satellite systems. It provides real-time message display and message archive & retrieval. GREAT is useful as a debugging tool, for monitoring real-time activity, as reported by all other components, and retrieving and analyzing historical events.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16074-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61a4" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The Criteria Action Table is a real-time decision-making component. Using predefined criteria (rules), CAT will ingest messages in real-time, analyze the content and context, and determine if the predefined criteria has been met. If so, an associated set of predefined actions is automatically triggered. Pre-defined actions can also be disabled. A decision-making, action-triggering component, such as CAT, can contribute to system-wide situational awareness, provide system-wide process orchestration, and enable system automation.", + "identifier": "GSC-17185-1", + "laborHours": 0, + "name": "Goddard Mission Services Evolution Center (GMSEC) Criteria Action Table (CAT) Version 5.5", "organization": "GSFC", - "identifier": "GSC-17234-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17234-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61a6" + "usageType": "governmentWideReuse" }, - "name": "GMSEC Alert Notification System Router (ANSR) Version 4.0", - "description": "ANSR is an alert notification system providing paging and email services. Using call chains and call trees, ANSR supports call acknowledgement and call escalation allowing for multiple contingencies. As a central point of alarm configuration, notification, and reporting, it also provides a graphical configuration tool, a console-based monitoring tool, and a web-based log viewer.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17185-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61a5" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "GREAT is a toolkit for event/log messages, supporting single and multiple satellite systems. It provides real-time message display and message archive & retrieval. GREAT is useful as a debugging tool, for monitoring real-time activity, as reported by all other components, and retrieving and analyzing historical events.", + "identifier": "GSC-17234-1", + "laborHours": 0, + "name": "Goddard Mission Services Evolution Center (GMSEC) Reusable Events Analysis Toolkit (GREAT) Version 3.0", "organization": "GSFC", - "identifier": "GSC-17233-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17233-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61a7" + "usageType": "governmentWideReuse" }, - "name": "Interface Between STAR-CCM+ and 42 for Enhanced Fuel Slosh Analysis", - "description": "STAR-CCM+, a commercially available computational fluid dynamics (CFD) code, is linked with this software tool to 42, a user -friendly NASA in-house flight simulation program, to enable the modeling of fuel slosh as a part of the 42 flight simulation.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17234-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61a6" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "ANSR is an alert notification system providing paging and email services. Using call chains and call trees, ANSR supports call acknowledgement and call escalation allowing for multiple contingencies. As a central point of alarm configuration, notification, and reporting, it also provides a graphical configuration tool, a console-based monitoring tool, and a web-based log viewer.", + "identifier": "GSC-17233-1", + "laborHours": 0, + "name": "GMSEC Alert Notification System Router (ANSR) Version 4.0", "organization": "GSFC", - "identifier": "GSC-17081-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17081-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61a8" + "usageType": "governmentWideReuse" }, - "name": "Delta-V Along Line of Sight (DVALOS) Software", - "description": "The Delta-V Along Line of Sight (DVALOS) Software provides a capability to calculate an expected radial delta-V as seen from a supporting Deep Space Network (DSN) tracking station based on a planned maneuver for a DSN tracked spacecraft. DVALOS may then be used post maneuver to compare observed versus expected delta-V in order to discern maneuver burn performance.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17233-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Propulsion" - ], + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61a7" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "STAR-CCM+, a commercially available computational fluid dynamics (CFD) code, is linked with this software tool to 42, a user -friendly NASA in-house flight simulation program, to enable the modeling of fuel slosh as a part of the 42 flight simulation.", + "identifier": "GSC-17081-1", + "laborHours": 0, + "name": "Interface Between STAR-CCM+ and 42 for Enhanced Fuel Slosh Analysis", "organization": "GSFC", - "identifier": "GSC-17484-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17484-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-18" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61a9" + "usageType": "governmentWideReuse" }, - "name": "Advanced Spacecraft Integration & System Test Software (ASIST) Version 20.0", - "description": "Since the early 1990's, a government/contractor team has developed a spacecraft ground system capable of being used for all phases of a spacecraft's life: for box-level development and testing, satellite integration and test, and post-launch mission operations. This system uses a single, industry-standard protocol, to ease integration with other products, and uses both COTS, GOTS and public domain software to form a single, cohesive system. It is composed of several parts:\r\n\r\nThe Advanced System for Integration and Spacecraft Testing (ASIST) is the user-interface, providing user with the ability to view and analyze telemetry, send commands, and automate tests. The Front End Data System reads telemetry from spacecrafts, distributing requested data packets to subscribing clients; additionally, it controls the forward (command) link to the spacecraft, formatting command packets so that the spacecraft can read them and verifying that commands are transferred correctly. The Digital History Data Store (DHDS) archives the raw telemetry received from the spacecraft and distributes historical telemetry data to clients.\r\n\r\nThis system can be configured in a number of ways. For small labs, a single ASIST workstation may be used, while in I&T or mission operations, the configuration may include up to 31 ASIST workstations. All configurations provide the user with the same standard interface to their flight hardware.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17081-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61a8" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "The Delta-V Along Line of Sight (DVALOS) Software provides a capability to calculate an expected radial delta-V as seen from a supporting Deep Space Network (DSN) tracking station based on a planned maneuver for a DSN tracked spacecraft. DVALOS may then be used post maneuver to compare observed versus expected delta-V in order to discern maneuver burn performance.", + "identifier": "GSC-17484-1", + "laborHours": 0, + "name": "Delta-V Along Line of Sight (DVALOS) Software", "organization": "GSFC", - "identifier": "GSC-16783-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16783-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-17484-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Propulsion" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61aa" }, - "name": "GMSEC Remote Application Service Provider (GRASP) 2.0", - "description": "This entirely new software utility facilitates the secure transmission of GMSEC messages from a secure environment to a less secure environment and makes these messages available to web applications operating in the less secure environment via a generic, language independent mechanism.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "This entirely new software utility facilitates the secure transmission of GMSEC messages from a secure environment to a less secure environment and makes these messages available to web applications operating in the less secure environment via a generic, language independent mechanism.", "identifier": "GSC-16822-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16822-1", + "laborHours": 0, + "name": "GMSEC Remote Application Service Provider (GRASP) 2.0", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-18" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ab" + "usageType": "governmentWideReuse" }, - "name": "GMSEC API Performance Testing Utility v3.0", - "description": "Statistical performance testing tool used to test and measure the GMSEC middleware systems by recreatihng test scenarios under various configurations. The benchmarks run simulations at increasing loads, measuring the performance in terms of message transmission delay. The results can be visually inspected in Microsoft Excel graphs, or raw numerical data. The utility features the ability to compare performance of middleware based systems against raw TCP socket to socket communications, providing a better perspective on the relative worths of the GMSEC compliant middleware systems.\r\n", + "repositoryURL": "https://software.nasa.gov/software/GSC-16822-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Operations" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61a9" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "Since the early 1990's, a government/contractor team has developed a spacecraft ground system capable of being used for all phases of a spacecraft's life: for box-level development and testing, satellite integration and test, and post-launch mission operations. This system uses a single, industry-standard protocol, to ease integration with other products, and uses both COTS, GOTS and public domain software to form a single, cohesive system. It is composed of several parts:\r\n\r\nThe Advanced System for Integration and Spacecraft Testing (ASIST) is the user-interface, providing user with the ability to view and analyze telemetry, send commands, and automate tests. The Front End Data System reads telemetry from spacecrafts, distributing requested data packets to subscribing clients; additionally, it controls the forward (command) link to the spacecraft, formatting command packets so that the spacecraft can read them and verifying that commands are transferred correctly. The Digital History Data Store (DHDS) archives the raw telemetry received from the spacecraft and distributes historical telemetry data to clients.\r\n\r\nThis system can be configured in a number of ways. For small labs, a single ASIST workstation may be used, while in I&T or mission operations, the configuration may include up to 31 ASIST workstations. All configurations provide the user with the same standard interface to their flight hardware.", + "identifier": "GSC-16783-1", + "laborHours": 0, + "name": "Advanced Spacecraft Integration & System Test Software (ASIST) Version 20.0", "organization": "GSFC", - "identifier": "GSC-16168-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16168-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-18" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ac" + "usageType": "governmentWideReuse" }, - "name": "Goddard Mission Services Evolution Center (GMSEC) CountdownClock (CC) 2.0", - "description": "Adaptation of the original 2-D CountdownClock, that internally treats countdown records uniformly. Displays in two modes: alternating record (like the original), and multi-record. Allows dynamic configuration of a number of features, including font size. Capable of reading WOTIS files, but can also read TRMM TDX-PLAN files and can readily add compatible file formats through the use of Java interface implementations.\r\n", + "repositoryURL": "https://software.nasa.gov/software/GSC-16783-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ab" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "Statistical performance testing tool used to test and measure the GMSEC middleware systems by recreatihng test scenarios under various configurations. The benchmarks run simulations at increasing loads, measuring the performance in terms of message transmission delay. The results can be visually inspected in Microsoft Excel graphs, or raw numerical data. The utility features the ability to compare performance of middleware based systems against raw TCP socket to socket communications, providing a better perspective on the relative worths of the GMSEC compliant middleware systems.\r\n", + "identifier": "GSC-16168-1", + "laborHours": 0, + "name": "GMSEC API Performance Testing Utility v3.0", "organization": "GSFC", - "identifier": "GSC-17186-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17186-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-18" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ad" + "usageType": "governmentWideReuse" }, - "name": "GMSEC Architecture Application Programming Interface (API) [Software Release Version 3.7]", - "description": "The GMSEC architecture is a comprehensive flight and ground system architecture that spans the full mission lifecycle. Software components use the GMSEC Architecture API to connect to a middleware software messaging bus that in turn is responsible for message routing and delivery. The innovation of the GMSEC Architecture API is the isolation of the middleware from the components, and the normalization of the middleware behavior. This provides an isolation layer and prevents vendor lock-in. \r\n\r\nThis software release contains major enhancements to previous releases of the GMSEC API, including greater reliability and enhanced usability. For example, this release includes a new feature which allows users to determine quickly and easily if their current operations environment has been correctly configured to use GMSEC.\"\r\n", + "repositoryURL": "https://software.nasa.gov/software/GSC-16168-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ae" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "The GMSEC SystemAgent is a GMSEC-compliant software component that provides health information about the computer hosting the agent to other GMSEC components utilizing a middleware-based architecture. It also provides the capability for executing command(s) received from a GMSEC Directive message(s) as well as the capability for monitoring specified log files.", + "identifier": "GSC-17483-1", + "laborHours": 0, + "name": "Goddard Mission Service Evolution Center (GMSEC) System Agent 3.1", "organization": "GSFC", - "identifier": "GSC-17417-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17417-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-18" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ae" + "usageType": "governmentWideReuse" }, - "name": "Goddard Mission Service Evolution Center (GMSEC) System Agent 3.1", - "description": "The GMSEC SystemAgent is a GMSEC-compliant software component that provides health information about the computer hosting the agent to other GMSEC components utilizing a middleware-based architecture. It also provides the capability for executing command(s) received from a GMSEC Directive message(s) as well as the capability for monitoring specified log files.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17483-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ac" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "Adaptation of the original 2-D CountdownClock, that internally treats countdown records uniformly. Displays in two modes: alternating record (like the original), and multi-record. Allows dynamic configuration of a number of features, including font size. Capable of reading WOTIS files, but can also read TRMM TDX-PLAN files and can readily add compatible file formats through the use of Java interface implementations.\r\n", + "identifier": "GSC-17186-1", + "laborHours": 0, + "name": "Goddard Mission Services Evolution Center (GMSEC) CountdownClock (CC) 2.0", "organization": "GSFC", - "identifier": "GSC-17483-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17483-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-18" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61af" - }, - "name": "Configuration Auditing Tool (CAT)", - "description": "CAT enables the generation of configuration information and the creation of baseline configurable items. Automated and remote interrogation scripts provide configuration information in the form of \"as-built\" reports. Specific CAT features include a change control tool, a baseline management tool, an auditing tool, a Web baseline information system tool, an automated code preparation and delivery tool, and process daemons.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17186-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ad" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-18" + }, + "description": "The GMSEC architecture is a comprehensive flight and ground system architecture that spans the full mission lifecycle. Software components use the GMSEC Architecture API to connect to a middleware software messaging bus that in turn is responsible for message routing and delivery. The innovation of the GMSEC Architecture API is the isolation of the middleware from the components, and the normalization of the middleware behavior. This provides an isolation layer and prevents vendor lock-in. \r\n\r\nThis software release contains major enhancements to previous releases of the GMSEC API, including greater reliability and enhanced usability. For example, this release includes a new feature which allows users to determine quickly and easily if their current operations environment has been correctly configured to use GMSEC.\"\r\n", + "identifier": "GSC-17417-1", + "laborHours": 0, + "name": "GMSEC Architecture Application Programming Interface (API) [Software Release Version 3.7]", "organization": "GSFC", - "identifier": "GSC-15309-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15309-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-17417-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61b0" }, - "name": "TestEVAL is a python software tool to assist in mechanical testing", - "description": "TestEVAL was generated to provide a tool for processing and plotting mechanical test data. This tool is used for both handling pre-test planning and post test processing. The tool provides plotting capability for different data formats, including Nastran xyplot punch files, Excel files, CSV files, Matlab files, and network communication via pipes. The data can plotted in linear, log or semi-log scales. Data can be modified and processed against other data sets to assist in understanding the test responses or predictions.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "TestEVAL was generated to provide a tool for processing and plotting mechanical test data. This tool is used for both handling pre-test planning and post test processing. The tool provides plotting capability for different data formats, including Nastran xyplot punch files, Excel files, CSV files, Matlab files, and network communication via pipes. The data can plotted in linear, log or semi-log scales. Data can be modified and processed against other data sets to assist in understanding the test responses or predictions.", "identifier": "GSC-17288-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17288-1", + "laborHours": 0, + "name": "TestEVAL is a python software tool to assist in mechanical testing", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-17288-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61b1" }, - "name": "Hazards Analysis Management Tool (HAMT)", + "contact": { + "email": "gsfc-softwarerequest@mail.nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, "description": "HAMT uses a single software tool to increase the efficiency and effectiveness of hazard analyses. Composed of a Microsoft Access front-end (that contains the user interface) paired with a Microsoft Access back-end (that stores analysis data), the software can be used to enter, edit, and report information throughout the hazard analysis lifecycle.", + "identifier": "GSC-16846-1", + "laborHours": 0, + "name": "Hazards Analysis Management Tool (HAMT)", + "organization": "GSFC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/GSC-16846-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Autonomous Systems" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61af" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "CAT enables the generation of configuration information and the creation of baseline configurable items. Automated and remote interrogation scripts provide configuration information in the form of \"as-built\" reports. Specific CAT features include a change control tool, a baseline management tool, an auditing tool, a Web baseline information system tool, an automated code preparation and delivery tool, and process daemons.", + "identifier": "GSC-15309-1", + "laborHours": 0, + "name": "Configuration Auditing Tool (CAT)", "organization": "GSFC", - "identifier": "GSC-16846-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16846-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15309-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61b2" }, - "name": "Integrated Trending and Plotting System (ITPS), Release 6.0", - "description": "Release 6.0 of ITPS was developed to provide the Fermi mission with an improved ability to handle multiple long-term trending jobs without adjusting the time range and reselecting all the options. This release also provides more flexibility in the use of input definition files (IDFs). IDFs are used in the generation of ITPS trending products and contain selected mnemonics, filtering information, and output formats.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Release 6.0 of ITPS was developed to provide the Fermi mission with an improved ability to handle multiple long-term trending jobs without adjusting the time range and reselecting all the options. This release also provides more flexibility in the use of input definition files (IDFs). IDFs are used in the generation of ITPS trending products and contain selected mnemonics, filtering information, and output formats.", "identifier": "GSC-16169-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16169-1", + "laborHours": 0, + "name": "Integrated Trending and Plotting System (ITPS), Release 6.0", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61b3" + "usageType": "governmentWideReuse" }, - "name": "Geo-Correction for Airborne Platforms (GCAP), Version 1.0", - "description": "The GCAP software was developed to provide the user with the ability to geo-reference a raster image using the Inertial Measurement Unit data. The output image is then further processed by other software functions to generate higher-level data products such as flood, fire, water, and oil classifications.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16169-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61b3" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The GCAP software was developed to provide the user with the ability to geo-reference a raster image using the Inertial Measurement Unit data. The output image is then further processed by other software functions to generate higher-level data products such as flood, fire, water, and oil classifications.", "identifier": "GSC-16786-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16786-1", + "laborHours": 0, + "name": "Geo-Correction for Airborne Platforms (GCAP), Version 1.0", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61b4" + "usageType": "governmentWideReuse" }, - "name": "Magnetosphere Multi-Scale (MMS) Spacecraft Flight Software", - "description": "This spacecraft flight software was developed to support unique multi-satellite MMS mission requirements. The technology interfaces to a sensor/actuator complement that includes a star sensor and Digital Sun Sensor, Accelerometer, and Thruster hardware to implement the functionality for determining and controlling spacecraft attitude and orbit.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16786-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61b5" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Containing no source code, this library is a binary, executable release of the Core Command and Data Handling (CC&DH) Component.", + "identifier": "GSC-15197-1", + "laborHours": 0, + "name": "Core Command and Data Handling (CC&DH) Library", "organization": "GSFC", - "identifier": "GSC-16471-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16471-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61b5" + "usageType": "governmentWideReuse" }, - "name": "Core Command and Data Handling (CC&DH) Library", - "description": "Containing no source code, this library is a binary, executable release of the Core Command and Data Handling (CC&DH) Component.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15197-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61b4" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This spacecraft flight software was developed to support unique multi-satellite MMS mission requirements. The technology interfaces to a sensor/actuator complement that includes a star sensor and Digital Sun Sensor, Accelerometer, and Thruster hardware to implement the functionality for determining and controlling spacecraft attitude and orbit.", + "identifier": "GSC-16471-1", + "laborHours": 0, + "name": "Magnetosphere Multi-Scale (MMS) Spacecraft Flight Software", "organization": "GSFC", - "identifier": "GSC-15197-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15197-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16471-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61b6" }, - "name": "Goddard Dynamic Simulator (GDS)", - "description": "The Goddard Dynamic Simulator (GDS) is used to test both software and hardware flight systems. 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In addition, the software monitors the health of various instrument subsystems and takes corrective actions when necessary.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15340-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61b8" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Modular Integrated Solutions Toolkit (MIST) is a software system designed to provide low- and medium-fidelity simulation of spacecraft telemetry and commands for ground system testing. 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The technology consists of a simulation architecture, simulation middleware, a user interface, and a library of functional elements.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15337-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61b7" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The BAT engineering software controls and coordinates all aspects of the instrument's operation in nominal and anomalous conditions. It distributes commands to, and collects data from, all instrument subsystems, including the power system, the 16 detector blocks, the digital signal processor, and the science data processing software. The technology also communicates with the Swift spacecraft to receive commands from the ground and send all instrument telemetry data. In addition, the software monitors the health of various instrument subsystems and takes corrective actions when necessary.", + "identifier": "GSC-15242-1", + "laborHours": 0, + "name": "Swift Burst Alert Telescope (BAT) Engineering Flight Software", "organization": "GSFC", - "identifier": "GSC-15337-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15337-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15242-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61b9" }, - "name": "Interactive Graphical SCADA System (IGSS) XML Adaptor for the James Webb Space Telescope (JWST)", - "description": "Built for the James Webb Space Telescope (JWSP), this adaptor is a major component of the Interactive Graphical SCADA System (IGSS). 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The tool can be used on multiple NASA projects and can be customized using different processors and interfaces. This version of the technology is configured for the Coldfire processor on the SDO SDN processor boards.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15454-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "System Testing" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61be" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Freespace Simulation Environment is a collection of software applications for the design and analysis of complex system dynamics. 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GOBBS does not replace Competitive Placement Plan vacancy announcements that require competition-through-merit promotion procedures.", "identifier": "GSC-15514-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15514-1", + "laborHours": 0, + "name": "Goddard Opportunities Bulletin Board System (GOBBS) Web Application", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61c1" + "usageType": "governmentWideReuse" }, - "name": "Kameleon Software Suite-the Kameleon Converter", - "description": "Developed at the Community Coordinated Modeling Center (CCMC), the Kameleon Software Suite addresses the difficulty in analyzing and disseminating the varying output formats of space weather model data. 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The technology implements the SLE-RCF protocol as defined by the Consultative Committee for Space Data Systems (CCSDS). Software routines can be reused from mission to mission.", + "identifier": "GSC-15458-1", + "laborHours": 0, + "name": "Space Link Extension Return Channel Frames (SLE-RCF) Service Software Library (User Side)", "organization": "GSFC", - "identifier": "GSC-15440-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15440-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61c2" + "usageType": "governmentWideReuse" }, - "name": "Space Link Extension Return Channel Frames (SLE-RCF) Service Software Library (User Side)", - "description": "This software library enables a mission control center to receive telemetry frames from a ground station. The technology implements the SLE-RCF protocol as defined by the Consultative Committee for Space Data Systems (CCSDS). Software routines can be reused from mission to mission.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15458-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61c1" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Developed at the Community Coordinated Modeling Center (CCMC), the Kameleon Software Suite addresses the difficulty in analyzing and disseminating the varying output formats of space weather model data. Employing a comprehensive standardization methodology, Kameleon allows heterogeneous model output to be stored uniformly in a common science data format. The converted files contain both the original model output as well as additional metadata elements to create platform-independent and self-descriptive data files. Kameleon facilitates model data dissemination, data reuse, and code reuse.", + "identifier": "GSC-15440-1", + "laborHours": 0, + "name": "Kameleon Software Suite-the Kameleon Converter", "organization": "GSFC", - "identifier": "GSC-15458-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15458-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15440-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61c3" }, - "name": "Hubble Space Telescope (HST) Guide Star Catalog", - "description": "This software tracks the distribution of the Hubble Space Telescope (HST) Guide Star Catalog.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software tracks the distribution of the Hubble Space Telescope (HST) Guide Star Catalog.", "identifier": "GSC-15569-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15569-1", + "laborHours": 0, + "name": "Hubble Space Telescope (HST) Guide Star Catalog", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15569-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61c4" }, - "name": "Direct Solve Image-Based Wavefront Sensing", - "description": "This technology solves for the wavefront directly from a single image and does not require defocusing or a nonlinear iterative algorithm.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology solves for the wavefront directly from a single image and does not require defocusing or a nonlinear iterative algorithm.", "identifier": "GSC-15208-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15208-1", + "laborHours": 0, + "name": "Direct Solve Image-Based Wavefront Sensing", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61c5" + } + ], + "usageType": "governmentWideReuse" }, - "name": "Supervisory Survey-Supervisory Feedback Tool", - "description": "This application consists of an online survey that collects feedback from employees regarding their supervisors. Employees can anonymously review their immediate supervisor, a supervisor above their own immediate supervisor, or a matrixed supervisor. Feedback topic questions cover human resource management, communication, diversity and equal opportunity, and teamwork. The reports function allows supervisors to compare current feedback to feedback from previous surveys.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15208-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61c5" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This application consists of an online survey that collects feedback from employees regarding their supervisors. Employees can anonymously review their immediate supervisor, a supervisor above their own immediate supervisor, or a matrixed supervisor. Feedback topic questions cover human resource management, communication, diversity and equal opportunity, and teamwork. The reports function allows supervisors to compare current feedback to feedback from previous surveys.", "identifier": "GSC-15534-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15534-1", + "laborHours": 0, + "name": "Supervisory Survey-Supervisory Feedback Tool", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61c6" + "usageType": "governmentWideReuse" }, - "name": "Multi-Mission Three-Axis Stabilized Spacecraft (MTASS) Attitude Determination and Sensor Calibration System", - "description": "Unlike single-purpose ground support systems, which attempt to reduce costs by reusing software specifically developed for previous missions, this development effort is an intermediate step in the progression to a single fully generalized mission support system that could be used for numerous missions.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15534-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], + "Business Systems and Project Management" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61c7" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The ExPRESS Logistics Carrier Suitcase Simulator Software simulates the ExPRESS Logistics Carrier Flight Software and the ExPRESS Logistics Carrier hardware interfaces for experiments. Analog and digital channels are supported by a custom SAB PCI card that allows the user to configure each of the analog and digital channels to the experiment.", + "identifier": "GSC-15813-1", + "laborHours": 0, + "name": "ExPRESS Logistics Carrier Suitcase Simulator Software", "organization": "GSFC", - "identifier": "GSC-15811-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15811-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61c7" + "usageType": "governmentWideReuse" }, - "name": "ExPRESS Logistics Carrier Suitcase Simulator Software", - "description": "The ExPRESS Logistics Carrier Suitcase Simulator Software simulates the ExPRESS Logistics Carrier Flight Software and the ExPRESS Logistics Carrier hardware interfaces for experiments. Analog and digital channels are supported by a custom SAB PCI card that allows the user to configure each of the analog and digital channels to the experiment.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15813-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61c6" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Unlike single-purpose ground support systems, which attempt to reduce costs by reusing software specifically developed for previous missions, this development effort is an intermediate step in the progression to a single fully generalized mission support system that could be used for numerous missions.", + "identifier": "GSC-15811-1", + "laborHours": 0, + "name": "Multi-Mission Three-Axis Stabilized Spacecraft (MTASS) Attitude Determination and Sensor Calibration System", "organization": "GSFC", - "identifier": "GSC-15813-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15813-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15811-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61c8" }, - "name": "Gold Standard Test Set (GSTS)", - "description": "The GSTS ground support equipment verifies that a command, control, communications, and intelligence (C3I) system complies with the interoperability standards for radio links and Ethernet interfaces. The technology, which does not check content, has been used to verify the interoperability protocols (language only) between Constellation systems.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Autonomous Systems" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The GSTS ground support equipment verifies that a command, control, communications, and intelligence (C3I) system complies with the interoperability standards for radio links and Ethernet interfaces. The technology, which does not check content, has been used to verify the interoperability protocols (language only) between Constellation systems.", "identifier": "GSC-15873-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15873-1", + "laborHours": 0, + "name": "Gold Standard Test Set (GSTS)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15873-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61c9" }, - "name": "Distributed System Integrated Labs Communications Adapter (DSILCA)", - "description": "Providing interoperability between Constellation systems at the hardline and baseband external interfaces, DSILCA is a communications adapter that converts non-C3I-compliant data and interfaces into C3I-compliant data and interfaces.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Providing interoperability between Constellation systems at the hardline and baseband external interfaces, DSILCA is a communications adapter that converts non-C3I-compliant data and interfaces into C3I-compliant data and interfaces.", "identifier": "GSC-15846-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15846-1", + "laborHours": 0, + "name": "Distributed System Integrated Labs Communications Adapter (DSILCA)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ca" + "usageType": "governmentWideReuse" }, - "name": "Distributed System Integrated Labs Interface User (DSILIU)", - "description": "DSILIU provides interface conversion to Ethernet to allow nationwide connectivity over the NASA Integrated Services Network (NISN) or other high-bandwidth interagency network.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15846-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ca" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "DSILIU provides interface conversion to Ethernet to allow nationwide connectivity over the NASA Integrated Services Network (NISN) or other high-bandwidth interagency network.", "identifier": "GSC-15847-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15847-1", + "laborHours": 0, + "name": "Distributed System Integrated Labs Interface User (DSILIU)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15847-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61cb" }, - "name": "Mirador: A Fast, Minimalist Search Tool for Remote Sensing Data", - "description": "Mirador is a search tool that emphasizes speed and simplicity in searching remotely sensed Earth science data. The search execution is accelerated by initially presenting dataset results with an estimated number of hits for each dataset. The simplicity of the search form makes the tool easy to learn and use, and the speed of the searches enables an iterative form of data discovery.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Mirador is a search tool that emphasizes speed and simplicity in searching remotely sensed Earth science data. The search execution is accelerated by initially presenting dataset results with an estimated number of hits for each dataset. The simplicity of the search form makes the tool easy to learn and use, and the speed of the searches enables an iterative form of data discovery.", "identifier": "GSC-15291-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15291-1", + "laborHours": 0, + "name": "Mirador: A Fast, Minimalist Search Tool for Remote Sensing Data", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15291-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61cc" }, - "name": "GEOS2WRF and MERRA2WRF Processing Tools", - "description": "GEOS2WRF and MERRA2WRF are data preprocessing tools for the Weather Research and Forecasting (WRF) limited-area weather model.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "GEOS2WRF and MERRA2WRF are data preprocessing tools for the Weather Research and Forecasting (WRF) limited-area weather model.", "identifier": "GSC-16065-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16065-1", + "laborHours": 0, + "name": "GEOS2WRF and MERRA2WRF Processing Tools", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61cd" + "usageType": "governmentWideReuse" }, - "name": "Integrated Trending and Plotting System (ITPS)", - "description": "ITPS is a comprehensive trending and plotting tool for the storage, extraction, and analysis of spacecraft housekeeping telemetry data.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16065-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Operations" - ], + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61cd" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "ITPS is a comprehensive trending and plotting tool for the storage, extraction, and analysis of spacecraft housekeeping telemetry data.", "identifier": "GSC-15532-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15532-1", + "laborHours": 0, + "name": "Integrated Trending and Plotting System (ITPS)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15532-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61ce" }, - "name": "Generic Reusable Aerospace Software Platform (GRASP)", - "description": "The purpose of GRASP is to provide a generic operating-system-independent framework for creating multi-process real-time applications. In the modular GRASP architecture, all operating system and hardware interfaces are isolated within GRASP libraries. The application developer uses GRASP interface libraries and device drivers to interact with external hardware. Should a new hardware item require a driver, that development would be part of GRASP and would be added to the GRASP interface libraries and become available for future projects. GRASP application software is developed by using the GRASP template, which offers access to the services GRASP provides. The templated generic code handles process initialization, thread creation, inter-process messaging, process health monitoring, data logging, data distribution, etc., with hooks that provide for subsystem tailoring. Using GRASP allows application developers to concentrate on mission specifics, reducing development time, cost, and risk.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The purpose of GRASP is to provide a generic operating-system-independent framework for creating multi-process real-time applications. In the modular GRASP architecture, all operating system and hardware interfaces are isolated within GRASP libraries. The application developer uses GRASP interface libraries and device drivers to interact with external hardware. Should a new hardware item require a driver, that development would be part of GRASP and would be added to the GRASP interface libraries and become available for future projects. GRASP application software is developed by using the GRASP template, which offers access to the services GRASP provides. The templated generic code handles process initialization, thread creation, inter-process messaging, process health monitoring, data logging, data distribution, etc., with hooks that provide for subsystem tailoring. Using GRASP allows application developers to concentrate on mission specifics, reducing development time, cost, and risk.", "identifier": "GSC-15695-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15695-1", + "laborHours": 0, + "name": "Generic Reusable Aerospace Software Platform (GRASP)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61cf" + "usageType": "governmentWideReuse" }, - "name": "Advanced Spacecraft Integration and System Test Software (ASIST), Front-End Data Systems/Digital History Data Store Software (FEDS/DHDS), Updated", - "description": "From component development to integration, testing, and mission operations, this NASA technology provides a single spacecraft ground system for processing spacecraft telemetry and command data throughout the lifecycle of a program. The technology is applicable to all missions with telemetry that (1) conforms to the AOS recommendations of the Consultative Committee for Space Data Systems (CCSDS) and (2) meets CCSDS telecommand standards.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15695-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Operations" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61d0" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology addresses minor software change requests written against the 2002 release of the Goddard Trajectory Determination System.", + "identifier": "GSC-15539-1", + "laborHours": 0, + "name": "Goddard Trajectory Determination System (GTDS), Release 2008.01", "organization": "GSFC", - "identifier": "GSC-15832-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15832-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61d0" + "usageType": "governmentWideReuse" }, - "name": "Goddard Trajectory Determination System (GTDS), Release 2008.01", - "description": "This technology addresses minor software change requests written against the 2002 release of the Goddard Trajectory Determination System.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15539-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61d1" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Scenario Scheduler is a Java software application that is integrated with the Goddard Mission Services Evolution Center (GMSEC) application program interface for use in Mission Operations Centers. The application stores activity lists or \"scenarios\" for execution in a timeline- and/or event-driven nature. The application is set up via a flat file schedule of activities to perform. Scenario Scheduler is redundant and both execution nodes work together in a prime/backup mode with automatic failover.", + "identifier": "GSC-16066-1", + "laborHours": 0, + "name": "Scenario Scheduler Timeline Execution Application Suite", "organization": "GSFC", - "identifier": "GSC-15539-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15539-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61d1" + "usageType": "governmentWideReuse" }, - "name": "Scenario Scheduler Timeline Execution Application Suite", - "description": "Scenario Scheduler is a Java software application that is integrated with the Goddard Mission Services Evolution Center (GMSEC) application program interface for use in Mission Operations Centers. The application stores activity lists or \"scenarios\" for execution in a timeline- and/or event-driven nature. The application is set up via a flat file schedule of activities to perform. Scenario Scheduler is redundant and both execution nodes work together in a prime/backup mode with automatic failover.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16066-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61cf" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "From component development to integration, testing, and mission operations, this NASA technology provides a single spacecraft ground system for processing spacecraft telemetry and command data throughout the lifecycle of a program. The technology is applicable to all missions with telemetry that (1) conforms to the AOS recommendations of the Consultative Committee for Space Data Systems (CCSDS) and (2) meets CCSDS telecommand standards.", + "identifier": "GSC-15832-1", + "laborHours": 0, + "name": "Advanced Spacecraft Integration and System Test Software (ASIST), Front-End Data Systems/Digital History Data Store Software (FEDS/DHDS), Updated", "organization": "GSFC", - "identifier": "GSC-16066-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16066-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15832-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61d2" }, - "name": "Automated Mission Planning and Scheduling System (AMPS), Version 2", - "description": "Five major components comprise the AMPS solution: (1) a C-language integrated production system (CLIPS) inference engine; (2) a graphical user interface (GUI); (3) a common object request broker architecture (CORBA); (4) a special functions component; and (5) a data component. CLIPS resolves currently active goals and objectives into a plan; a dynamic scheduler algorithm then expands the plan into a full schedule, adjusting it as needed.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Five major components comprise the AMPS solution: (1) a C-language integrated production system (CLIPS) inference engine; (2) a graphical user interface (GUI); (3) a common object request broker architecture (CORBA); (4) a special functions component; and (5) a data component. CLIPS resolves currently active goals and objectives into a plan; a dynamic scheduler algorithm then expands the plan into a full schedule, adjusting it as needed.", "identifier": "GSC-15852-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15852-1", + "laborHours": 0, + "name": "Automated Mission Planning and Scheduling System (AMPS), Version 2", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61d3" + "usageType": "governmentWideReuse" }, - "name": "Automation Framework Designed for Flight Dynamics Products Generation (XFDS)", - "description": "This software framework automates the generation of flight dynamics products by providing a unified and consistent graphical interface to various tools. The technology coordinates the execution of applications such as Satellite ToolKit, FreeFlyer, and MATLAB; allows for the embedding of Perl code; provides a mechanism for passing messages between a collection of XFDS processes; and allows GMSEC messages to be sent and received. Automation configuration is stored in text files and can be edited directly or by using graphical editors implemented for each tool.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15852-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Autonomous Systems" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61d4" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Telemetry and Science Data Software System was designed to ease testing verification, assist in debugging system anomalies, and perform both trending data analysis and advanced science analysis.", + "identifier": "GSC-15793-1", + "laborHours": 0, + "name": "Telemetry and Science Data Software System", "organization": "GSFC", - "identifier": "GSC-15618-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15618-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61d4" + "usageType": "governmentWideReuse" }, - "name": "Telemetry and Science Data Software System", - "description": "The Telemetry and Science Data Software System was designed to ease testing verification, assist in debugging system anomalies, and perform both trending data analysis and advanced science analysis.", + "repositoryURL": "https://software.nasa.gov/software/GSC-15793-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61d3" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software framework automates the generation of flight dynamics products by providing a unified and consistent graphical interface to various tools. 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Automation configuration is stored in text files and can be edited directly or by using graphical editors implemented for each tool.", + "identifier": "GSC-15618-1", + "laborHours": 0, + "name": "Automation Framework Designed for Flight Dynamics Products Generation (XFDS)", "organization": "GSFC", - "identifier": "GSC-15793-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15793-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15618-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61d5" }, - "name": "Telemetry and Science Data Software System, Updated", - "description": "The Telemetry and Science Data Software System was designed to ease testing verification, assist in debugging system anomalies, and provide both trending data analysis and advanced science analysis.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Telemetry and Science Data Software System was designed to ease testing verification, assist in debugging system anomalies, and provide both trending data analysis and advanced science analysis.", "identifier": "GSC-16035-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16035-1", + "laborHours": 0, + "name": "Telemetry and Science Data Software System, Updated", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16035-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61d6" }, - "name": "NASA Unified Weather Research and Forecasting (WRF)", - "description": "At NASA, WRF is being used to study: the precipitation processes associated with several high-impact weather events; aerosol impact on the area climate and water cycles over monsoon regions; the influence of land surface heterogeneity and soil moisture gradients on land-atmosphere interactions; explicit simulations of hurricanes; and interactive chemistry-aerosol processes.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "At NASA, WRF is being used to study: the precipitation processes associated with several high-impact weather events; aerosol impact on the area climate and water cycles over monsoon regions; the influence of land surface heterogeneity and soil moisture gradients on land-atmosphere interactions; explicit simulations of hurricanes; and interactive chemistry-aerosol processes.", "identifier": "GSC-16234-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16234-1", + "laborHours": 0, + "name": "NASA Unified Weather Research and Forecasting (WRF)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61d7" + "usageType": "governmentWideReuse" }, - "name": "Land Information System (LIS) Software, Version 6.1", - "description": "LIS can be used (1) as a problem-solving environment for hydrologic research to enable accurate global water- and energy-cycle predictions, or (2) as a decision support system to generate useful information for disaster, water resource, and agricultural management; numerical weather prediction; and air quality and military mobility assessment. Extensible interfaces allow the incorporation of new domains, land surface parameters, meteorological inputs, data assimilation, and optimization algorithms. Please visit the following URL for more information: http://lis.gsfc.nasa.gov/", + "repositoryURL": "https://software.nasa.gov/software/GSC-16234-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61d7" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "LIS can be used (1) as a problem-solving environment for hydrologic research to enable accurate global water- and energy-cycle predictions, or (2) as a decision support system to generate useful information for disaster, water resource, and agricultural management; numerical weather prediction; and air quality and military mobility assessment. 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Please visit the following URL for more information: http://lis.gsfc.nasa.gov/", "identifier": "GSC-16290-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16290-1", + "laborHours": 0, + "name": "Land Information System (LIS) Software, Version 6.1", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16290-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61d8" }, - "name": "Ethernet-to-HRDL Conversion Design", - "description": "The International Space Station (ISS) uses a fiber-optic High Rate Data Link (HRDL) standard for transferring data. Those designing ISS experiments, however, may prefer an Ethernet interface. This design allows ISS instruments to keep their Ethernet interface by converting the Ethernet data format into a format compatible with the ISS.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The International Space Station (ISS) uses a fiber-optic High Rate Data Link (HRDL) standard for transferring data. Those designing ISS experiments, however, may prefer an Ethernet interface. This design allows ISS instruments to keep their Ethernet interface by converting the Ethernet data format into a format compatible with the ISS.", "identifier": "GSC-16513-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16513-1", + "laborHours": 0, + "name": "Ethernet-to-HRDL Conversion Design", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16513-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61d9" }, - "name": "Synchronous Communications Bus 1553", - "description": "This application programming interface acts as a synchronous communications mechanism to pass data, allowing both sides of a transaction to communicate over the bus.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This application programming interface acts as a synchronous communications mechanism to pass data, allowing both sides of a transaction to communicate over the bus.", "identifier": "GSC-16265-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16265-1", + "laborHours": 0, + "name": "Synchronous Communications Bus 1553", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16265-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61da" }, - "name": "Global Precipitation Measurement (GPM) Operational Simulator (GO-SIM) Instrument Simulations", - "description": "These software-only science instrument simulations satisfy the GPM bus controller and allow flight software to operate as it would under normal conditions.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "These software-only science instrument simulations satisfy the GPM bus controller and allow flight software to operate as it would under normal conditions.", "identifier": "GSC-16264-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16264-1", + "laborHours": 0, + "name": "Global Precipitation Measurement (GPM) Operational Simulator (GO-SIM) Instrument Simulations", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61db" + "usageType": "governmentWideReuse" }, - "name": "Global Precipitation Measurement (GPM) Operational Simulator (GO-SIM) Core", - "description": "GO-SIM core provides a software-only simulator capability for executing GPM systems. The technology loads and runs different versions of spacecraft flight software, integrates with the Wind River workbench, and executes faster than real time.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16264-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61db" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "GO-SIM core provides a software-only simulator capability for executing GPM systems. The technology loads and runs different versions of spacecraft flight software, integrates with the Wind River workbench, and executes faster than real time.", "identifier": "GSC-16262-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16262-1", + "laborHours": 0, + "name": "Global Precipitation Measurement (GPM) Operational Simulator (GO-SIM) Core", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16262-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61dc" }, - "name": "Automated Evaluation Software (AES) Web Application", - "description": "AES allows source evaluation boards to enter, modify, and rate vendor proposals against a request for proposal (RFP). Created using modern Java enterprise technologies, the tool provides Microsoft output and dynamic report generation. The user interface is compatible with both Internet Explorer and Firefox. A Tomcat application server makes the application robust, fast, and reliable.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Autonomous Systems" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "AES allows source evaluation boards to enter, modify, and rate vendor proposals against a request for proposal (RFP). Created using modern Java enterprise technologies, the tool provides Microsoft output and dynamic report generation. The user interface is compatible with both Internet Explorer and Firefox. A Tomcat application server makes the application robust, fast, and reliable.", "identifier": "GSC-16544-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16544-1", + "laborHours": 0, + "name": "Automated Evaluation Software (AES) Web Application", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16544-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61dd" }, - "name": "Lunar Reconnaissance Orbiter (LRO) Spacecraft Flight Software", - "description": "LRO Spacecraft Flight Software controls and coordinates all aspects of the Orbiter's operation in nominal and anomalous conditions. It distributes commands to, and collects data from, all spacecraft subsystems and all seven instruments; communicates with the ground controllers in real time to receive commands and send housekeeping telemetry data through the S-band RF links; sends science data using the class-2 CCSDS File Delivery Protocol (CFDP) over the Ka-band RF link; and monitors the health of various Orbiter subsystems and takes corrective actions as necessary.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", - "identifier": "GSC-16103-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16103-1", - "permissions": { - "licenses": [ - { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61de" - }, - "name": "Advanced Technology Microwave Sounder (ATMS) Antenna Beam Analysis Software", - "description": "The ATMS software calculates instrument beam pointing and polarization state. Input is taken in the native MI Technologies MI-3000 antenna measurements system database format and should include sets of azimuth/elevation RF radiation pattern cuts (at multiple phi rotations) or discrete frequencies.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Operations" - ], - "contact": { - "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "description": "LRO Spacecraft Flight Software controls and coordinates all aspects of the Orbiter's operation in nominal and anomalous conditions. It distributes commands to, and collects data from, all spacecraft subsystems and all seven instruments; communicates with the ground controllers in real time to receive commands and send housekeeping telemetry data through the S-band RF links; sends science data using the class-2 CCSDS File Delivery Protocol (CFDP) over the Ka-band RF link; and monitors the health of various Orbiter subsystems and takes corrective actions as necessary.", + "identifier": "GSC-16103-1", + "laborHours": 0, + "name": "Lunar Reconnaissance Orbiter (LRO) Spacecraft Flight Software", "organization": "GSFC", - "identifier": "GSC-16784-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16784-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61df" + "usageType": "governmentWideReuse" }, - "name": "SpaceWire Reliable Data Delivery Protocol (RDDP) Software", - "description": "The RDDP software provides virtual channelization, reliable data delivery, and fire-and-forget functions on a single SpaceWire link. The technology runs in a microcontroller used in Power PC single-board flight computers.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16103-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61de" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The ATMS software calculates instrument beam pointing and polarization state. Input is taken in the native MI Technologies MI-3000 antenna measurements system database format and should include sets of azimuth/elevation RF radiation pattern cuts (at multiple phi rotations) or discrete frequencies.", + "identifier": "GSC-16784-1", + "laborHours": 0, + "name": "Advanced Technology Microwave Sounder (ATMS) Antenna Beam Analysis Software", "organization": "GSFC", - "identifier": "GSC-15402-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-15402-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16784-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61e0" }, - "name": "Range Safety Flight Elevation Limit Calculation Software (ElLimits)", - "description": "The ElLimits program is used to configure launch-phase range safety flight control lines for guided missiles. The user specifies the extents and resolution of a grid in the vertical plane oriented along the launch azimuth. At each grid point, the program computes the maximum velocity vector flight elevation that can be permitted without endangering a specified back-range location. Vertical plane x-y limit lines are derived from the flight elevation limit data by numerically propagating \"streamlines\" through the grid.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The ElLimits program is used to configure launch-phase range safety flight control lines for guided missiles. The user specifies the extents and resolution of a grid in the vertical plane oriented along the launch azimuth. At each grid point, the program computes the maximum velocity vector flight elevation that can be permitted without endangering a specified back-range location. Vertical plane x-y limit lines are derived from the flight elevation limit data by numerically propagating \"streamlines\" through the grid.", "identifier": "GSC-16692-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16692-1", + "laborHours": 0, + "name": "Range Safety Flight Elevation Limit Calculation Software (ElLimits)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61e1" + "usageType": "governmentWideReuse" }, - "name": "Packet to Electrical Ground Support Equipment (EGSE) Interface Converter, Version 4.0", - "description": "Developed using platform-independent language, this interface converter packet allows already-existing EGSE equipment to be supported on Windows and UNIX operating systems. The software is set up and controlled using XML-formatted files that define interface connections and data content.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16692-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Electronics and Electrical Power" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61df" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The RDDP software provides virtual channelization, reliable data delivery, and fire-and-forget functions on a single SpaceWire link. The technology runs in a microcontroller used in Power PC single-board flight computers.", + "identifier": "GSC-15402-1", + "laborHours": 0, + "name": "SpaceWire Reliable Data Delivery Protocol (RDDP) Software", "organization": "GSFC", - "identifier": "GSC-16586-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16586-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-15402-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61e2" }, - "name": "James Webb Space Telescope Independent Verification and Validation Simulation and Test (JIST) Core", + "contact": { + "email": "gsfc-softwarerequest@mail.nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, "description": "JIST executes James Webb Space Telescope (JWST) test procedures, exercises the flight software subsystems, injects hardware and software faults, and integrates additional tools to support test objectives. The components, models, and interfaces can be reused on other missions that utilize similar interfaces and components.", + "identifier": "GSC-16739-1", + "laborHours": 0, + "name": "James Webb Space Telescope Independent Verification and Validation Simulation and Test (JIST) Core", + "organization": "GSFC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/GSC-16739-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61e1" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Developed using platform-independent language, this interface converter packet allows already-existing EGSE equipment to be supported on Windows and UNIX operating systems. The software is set up and controlled using XML-formatted files that define interface connections and data content.", + "identifier": "GSC-16586-1", + "laborHours": 0, + "name": "Packet to Electrical Ground Support Equipment (EGSE) Interface Converter, Version 4.0", "organization": "GSFC", - "identifier": "GSC-16739-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16739-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16586-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Electronics and Electrical Power" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61e3" }, - "name": "James Webb Space Telescope Independent Verification and Validation Simulation and Test (JIST) RT Logic T501 Emulator", - "description": "The T501 emulator, developed in support of the JIST environment, receives software commands via TCP/IP packets and converts them for the James Webb Space Telescope (JWST) test bed's hardware.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The T501 emulator, developed in support of the JIST environment, receives software commands via TCP/IP packets and converts them for the James Webb Space Telescope (JWST) test bed's hardware.", "identifier": "GSC-16740-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16740-1", + "laborHours": 0, + "name": "James Webb Space Telescope Independent Verification and Validation Simulation and Test (JIST) RT Logic T501 Emulator", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16740-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61e4" }, - "name": "Tracking and Data Relay Satellite (TDRS) Simulator (TSIM)", - "description": "TSIM provides a ground-based capabilities simulation of the first-generation Tracking and Data Relay Satellite (TDRS).", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "TSIM provides a ground-based capabilities simulation of the first-generation Tracking and Data Relay Satellite (TDRS).", "identifier": "GSC-16845-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16845-1", + "laborHours": 0, + "name": "Tracking and Data Relay Satellite (TDRS) Simulator (TSIM)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16845-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61e5" }, - "name": "Space Network Access System (SNAS)", - "description": "SNAS is a single, universally accessible, standards-based, and full-featured customer interface for performing Tracking and Data Relay Satellite System (TDRSS) planning, scheduling, and real-time service monitoring and control. The technology consolidates the functionality of multiple legacy customer interface systems into a single tool. SNAS is the primary access system for managing TDRSS resources.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "SNAS is a single, universally accessible, standards-based, and full-featured customer interface for performing Tracking and Data Relay Satellite System (TDRSS) planning, scheduling, and real-time service monitoring and control. The technology consolidates the functionality of multiple legacy customer interface systems into a single tool. SNAS is the primary access system for managing TDRSS resources.", "identifier": "GSC-16844-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16844-1", + "laborHours": 0, + "name": "Space Network Access System (SNAS)", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61e6" + "usageType": "governmentWideReuse" }, - "name": "MAVEN Flight and Ground Software", - "description": "This software includes the flight code embedded in the flight processor on the spacecraft; the simulation models and executive code that executes in the Spacecraft Test Lab; the simulation models and executive code that executes in the SoftSim test bed; unit-level test code; test scripts to execute test runs in the test beds; and the software used to test avionics boards and support ATLO testing.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16844-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61e7" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology verifies complex space flight digital designs in a more thorough manner than was previously possible while offering cost savings and reduced schedule time. The software combines a custom-designed GSE unit, the Total Verification System, along with a powerful test bench environment that uses C++. Together, these elements allow a high level of code reuse between all the phases of the design and test cycle.", + "identifier": "GSC-16013-1", + "laborHours": 0, + "name": "Total Verification System and C++ Based Verification Test Bench", "organization": "GSFC", - "identifier": "GSC-16866-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16866-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61e7" + "usageType": "governmentWideReuse" }, - "name": "Total Verification System and C++ Based Verification Test Bench", - "description": "This technology verifies complex space flight digital designs in a more thorough manner than was previously possible while offering cost savings and reduced schedule time. The software combines a custom-designed GSE unit, the Total Verification System, along with a powerful test bench environment that uses C++. Together, these elements allow a high level of code reuse between all the phases of the design and test cycle.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16013-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61e6" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software includes the flight code embedded in the flight processor on the spacecraft; the simulation models and executive code that executes in the Spacecraft Test Lab; the simulation models and executive code that executes in the SoftSim test bed; unit-level test code; test scripts to execute test runs in the test beds; and the software used to test avionics boards and support ATLO testing.", + "identifier": "GSC-16866-1", + "laborHours": 0, + "name": "MAVEN Flight and Ground Software", "organization": "GSFC", - "identifier": "GSC-16013-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16013-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61e8" + "usageType": "governmentWideReuse" }, - "name": "Engineering Status Reporting Tool (ESRT)", - "description": "The purpose of this tool is to provide a common system across the Code 500 Directorate for reporting and tracking engineering issues/concerns. With this tool, information regarding engineering issues/concerns can be provided to AETD Directorate and Division management in a timely manner.\r\n\r\nThis system is divided into four modules: Flight Project MSR issues/concerns originating from a joint Code 400/500 meeting to review Flight Project status; Directorate issues/concerns originating from Center/AETD Chief Engineers, Directorate Managers; Division issues/concerns originating from Division Chief Engineer, Division Managers; and Branch issues/concerns originating from PDL, MSE, Engineers, Branch Managers. \r\n\r\nWithin each module, issues can be tracked, statuses updated, actions opened/closed, or elevated to the next highest module.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16866-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61e9" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "A method to perform an informal property inventory has been developed that serves to supplement the official NASA GSFC Property Inventory. This informal approach uses a Metrologic/Honeywell Scanpal2 Bar Code Scanner along with Microsoft Excel macros that take the scanner output data and updates an organization's database derived from NASA's N-PROP property management on-line database.", + "identifier": "GSC-17055-1", + "laborHours": 0, + "name": "Bar Code Scanner to supplement NASA GSFC property inventory process", "organization": "GSFC", - "identifier": "GSC-17110-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17110-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61e9" + "usageType": "governmentWideReuse" }, - "name": "Bar Code Scanner to supplement NASA GSFC property inventory process", - "description": "A method to perform an informal property inventory has been developed that serves to supplement the official NASA GSFC Property Inventory. This informal approach uses a Metrologic/Honeywell Scanpal2 Bar Code Scanner along with Microsoft Excel macros that take the scanner output data and updates an organization's database derived from NASA's N-PROP property management on-line database.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17055-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61e8" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The purpose of this tool is to provide a common system across the Code 500 Directorate for reporting and tracking engineering issues/concerns. With this tool, information regarding engineering issues/concerns can be provided to AETD Directorate and Division management in a timely manner.\r\n\r\nThis system is divided into four modules: Flight Project MSR issues/concerns originating from a joint Code 400/500 meeting to review Flight Project status; Directorate issues/concerns originating from Center/AETD Chief Engineers, Directorate Managers; Division issues/concerns originating from Division Chief Engineer, Division Managers; and Branch issues/concerns originating from PDL, MSE, Engineers, Branch Managers. \r\n\r\nWithin each module, issues can be tracked, statuses updated, actions opened/closed, or elevated to the next highest module.", + "identifier": "GSC-17110-1", + "laborHours": 0, + "name": "Engineering Status Reporting Tool (ESRT)", "organization": "GSFC", - "identifier": "GSC-17055-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17055-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ea" + "usageType": "governmentWideReuse" }, - "name": "SpF: A Software Framework for Pseudospectral Numerical Simulation at Extreme Scales", - "description": "Applications based upon pseudospectral algorithms share many characteristics and present common challenges to developers pushing the limits of high performance computing. Each investigation team generally tackles these challenges independently and reach various plateaus of performance that are well below those that are theoretically and demonstrably achievable. At the same time, pseudospectral algorithms have many unique characteristics that limit the applicability/efficacy of many software frameworks used by the high performance computing community. Such characteristics include \"transposes\" - large redistributions of data across an entire computing platform, nontrivial computational domains (e.g. spherical harmonic modes), little-or-no nearest-neighbor communication, and high computational intensity (DGEMM, FFT, etc). The goals of SpF (Spectral Framework) are to (1) reduce complexity and duplication of effort across multiple investigation teams, (2) achieve near optimal scalability on existing computing architectures (10\"4-10\"5 cores), (3) provide automation for domain decomposition and load balancing that circumvent hardwired constraints in existing applications, (4) provide automated and optimized global data \"transpososes\" that dominate compute time for large problems, (5) provide access to optimized numerical libraries including libraries implemented on hardware accelerators, and (6) provide a flexible/optimized input/output layer.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17110-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], + "Business Systems and Project Management" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ed" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The Integrated Science Instrument Models (ISIM) hardware models are Wind River Simics Device Modeling Language (DML) models for the ISIM Command and Data Handling (ICDH) electrical components; Housekeeping card (HK), Bus Interface Card (BIC), and Focal Plane Array Processor (FPAPs). The models allow the ISIM flight software to be executed within a COTS emulator product, Wind River Simics. This technology was primarily developed under the NASA IV&V Chief Engineer Support contract with contributions from the 2013 GSFC Software Simulations for Spacecraft Development IRAD (HK model and verification work) to support JWST IV&V work. ", + "identifier": "GSC-17039-1", + "laborHours": 0, + "name": "Integrated Science Instrument Module (ISIM) Hardware Models", "organization": "GSFC", - "identifier": "GSC-16918-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16918-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-17039-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61eb" }, - "name": "GOES-R Flight Software", - "description": "The GOES-R Flight Software contains software components required to operate the GOES-R satellite. Capabilities include Guidance, Navigation, Controls, and Propulsion (GNC&P) algorithm implementation, Electronic Power System (EPS) algorithm implementation, Thermal Control algorithm implementation, autonomous Fault Detection and Correction (FDC) capababilities, Command Processing, Telemetry Processing, Stored Command Processing, Instrument Payload Interfaces, BusIO command and control for Mil-Std-1553B bus interfaces, a layered driver architecture for GOES-R specific hardware interfaces and wrapped VxWorks 6.6 operating system capabilities, and an Executive application management capability. The GOES-R Flight Software also contains modified BAE RAD750 SUROM Startup capabilities, modified BAE SpaceWire SUROM startup capabilities, and BAE Spacewire ASIC Embedded MicroController (EMC) software. Finally, the GOES-R Flight Software contains a non-flight, Self Test Software (SELTS) component that allows for closed loop execution of the Flight Software during Integration and Test activities on the GOES-R Spacecraft. ", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The GOES-R Flight Software contains software components required to operate the GOES-R satellite. Capabilities include Guidance, Navigation, Controls, and Propulsion (GNC&P) algorithm implementation, Electronic Power System (EPS) algorithm implementation, Thermal Control algorithm implementation, autonomous Fault Detection and Correction (FDC) capababilities, Command Processing, Telemetry Processing, Stored Command Processing, Instrument Payload Interfaces, BusIO command and control for Mil-Std-1553B bus interfaces, a layered driver architecture for GOES-R specific hardware interfaces and wrapped VxWorks 6.6 operating system capabilities, and an Executive application management capability. The GOES-R Flight Software also contains modified BAE RAD750 SUROM Startup capabilities, modified BAE SpaceWire SUROM startup capabilities, and BAE Spacewire ASIC Embedded MicroController (EMC) software. Finally, the GOES-R Flight Software contains a non-flight, Self Test Software (SELTS) component that allows for closed loop execution of the Flight Software during Integration and Test activities on the GOES-R Spacecraft. ", "identifier": "GSC-17071-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17071-1", + "laborHours": 0, + "name": "GOES-R Flight Software", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ec" + "usageType": "governmentWideReuse" }, - "name": "JWST IV&V Simulation and Test (JIST) Solid State Recorder (SSR) Simulator", - "description": "The James Webb Space Telescope (JWST) IV&V Simulation and Test (JIST) Solid State Recorder (SSR) Simulator is a component of the JIST system and is responsible for simulating basic SSR functionality. The primary purpose of the SSR Simulator is to assist in performing independent verfication and validation (IV&V) of the flight software. The SSR simulator is a software-only simulator that provides the necessary interface to the JWST flight software and typically simulates SSR management functions. Specific functions include playback, record, and normal telemetry transmission. The SSR simulator is also equipped with many different configurations that can be initialized using command line arguments. The SSR Simulator has reuse potential on future missions that utilize a Solid State Recorder. ", + "repositoryURL": "https://software.nasa.gov/software/GSC-17071-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ee" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The NASA Operational Simulator (NOS) Motion (NMotion) is a suite of software that is utilized to support the building and testing of test system software components at the NASA Independent Verification and Validation (IV&V Program). NMotion provides an automation framework for performing full integration and system testing on NOS based systems. ", + "identifier": "GSC-17145-1", + "laborHours": 0, + "name": "NASA Operational Simulator (NOS) Motion (NMotion)", "organization": "GSFC", - "identifier": "GSC-16741-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16741-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ed" + "usageType": "governmentWideReuse" }, - "name": "Integrated Science Instrument Module (ISIM) Hardware Models", - "description": "The Integrated Science Instrument Models (ISIM) hardware models are Wind River Simics Device Modeling Language (DML) models for the ISIM Command and Data Handling (ICDH) electrical components; Housekeeping card (HK), Bus Interface Card (BIC), and Focal Plane Array Processor (FPAPs). The models allow the ISIM flight software to be executed within a COTS emulator product, Wind River Simics. This technology was primarily developed under the NASA IV&V Chief Engineer Support contract with contributions from the 2013 GSFC Software Simulations for Spacecraft Development IRAD (HK model and verification work) to support JWST IV&V work. ", + "repositoryURL": "https://software.nasa.gov/software/GSC-17145-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ea" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "Applications based upon pseudospectral algorithms share many characteristics and present common challenges to developers pushing the limits of high performance computing. Each investigation team generally tackles these challenges independently and reach various plateaus of performance that are well below those that are theoretically and demonstrably achievable. At the same time, pseudospectral algorithms have many unique characteristics that limit the applicability/efficacy of many software frameworks used by the high performance computing community. Such characteristics include \"transposes\" - large redistributions of data across an entire computing platform, nontrivial computational domains (e.g. spherical harmonic modes), little-or-no nearest-neighbor communication, and high computational intensity (DGEMM, FFT, etc). The goals of SpF (Spectral Framework) are to (1) reduce complexity and duplication of effort across multiple investigation teams, (2) achieve near optimal scalability on existing computing architectures (10\"4-10\"5 cores), (3) provide automation for domain decomposition and load balancing that circumvent hardwired constraints in existing applications, (4) provide automated and optimized global data \"transpososes\" that dominate compute time for large problems, (5) provide access to optimized numerical libraries including libraries implemented on hardware accelerators, and (6) provide a flexible/optimized input/output layer.", + "identifier": "GSC-16918-1", + "laborHours": 0, + "name": "SpF: A Software Framework for Pseudospectral Numerical Simulation at Extreme Scales", "organization": "GSFC", - "identifier": "GSC-17039-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17039-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ee" + "usageType": "governmentWideReuse" }, - "name": "NASA Operational Simulator (NOS) Motion (NMotion)", - "description": "The NASA Operational Simulator (NOS) Motion (NMotion) is a suite of software that is utilized to support the building and testing of test system software components at the NASA Independent Verification and Validation (IV&V Program). NMotion provides an automation framework for performing full integration and system testing on NOS based systems. ", + "repositoryURL": "https://software.nasa.gov/software/GSC-16918-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Data Servers Processing and Handling" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ec" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The James Webb Space Telescope (JWST) IV&V Simulation and Test (JIST) Solid State Recorder (SSR) Simulator is a component of the JIST system and is responsible for simulating basic SSR functionality. The primary purpose of the SSR Simulator is to assist in performing independent verfication and validation (IV&V) of the flight software. The SSR simulator is a software-only simulator that provides the necessary interface to the JWST flight software and typically simulates SSR management functions. Specific functions include playback, record, and normal telemetry transmission. The SSR simulator is also equipped with many different configurations that can be initialized using command line arguments. The SSR Simulator has reuse potential on future missions that utilize a Solid State Recorder. ", + "identifier": "GSC-16741-1", + "laborHours": 0, + "name": "JWST IV&V Simulation and Test (JIST) Solid State Recorder (SSR) Simulator", "organization": "GSFC", - "identifier": "GSC-17145-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17145-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ef" + "usageType": "governmentWideReuse" }, - "name": "NASA Operational Simulator (NOS) Common", - "description": "The NASA Operational Simulator (NOS) Common software is a collection of libraries and applications that have been developed to support the development and maintenance of pure software spacecraft emulators and associated technologies. The NOS Common software applications were designed to be project agnostic and flexible to support any implementation. The most notable utilities include the NOS logging and NOS utils libraries. The NOS logging library is a lightweight and easy-to-use logging framework. The NOS util library is an all-purpose library to house various generic solutions to common development problems. These include generic pooling mechanism, a specialized threading pool, and a custom assert mechanism. The threading pool allows cross-platform thread management to any application or library with very low user interaction. The custom assert mechanism is designed to not have certain error checking implementations removed during compile time under release configurations. ", + "repositoryURL": "https://software.nasa.gov/software/GSC-16741-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ef" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The NASA Operational Simulator (NOS) Common software is a collection of libraries and applications that have been developed to support the development and maintenance of pure software spacecraft emulators and associated technologies. The NOS Common software applications were designed to be project agnostic and flexible to support any implementation. The most notable utilities include the NOS logging and NOS utils libraries. The NOS logging library is a lightweight and easy-to-use logging framework. The NOS util library is an all-purpose library to house various generic solutions to common development problems. These include generic pooling mechanism, a specialized threading pool, and a custom assert mechanism. The threading pool allows cross-platform thread management to any application or library with very low user interaction. The custom assert mechanism is designed to not have certain error checking implementations removed during compile time under release configurations. ", "identifier": "GSC-17146-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17146-1", + "laborHours": 0, + "name": "NASA Operational Simulator (NOS) Common", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-17146-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61f0" }, - "name": "Next Generation Integrated Network (NGIN) 2.0", - "description": "NGIN 2.0 offers a consolidated Product Lifecycle Management system including documentation management, configuration management, change control management, and risk management, of product/project data. Specific data managed is product/project governance data including requirements, product/project plans, product/project control plans, technical review preparation and results, action items, issues, risks, drawings, work order authorizations, photographs and any other documentation needed to successfully manage the product/project lifecycle. In addition, NGIN 2.0 provides collaboration via the internet, and a single repository for multiple products/projects to manage the lifecycle of their respective product/project, i.e. NGIN 2.0 provides a standardized approach for managing multiple products/projects in a single repository. ", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "NGIN 2.0 offers a consolidated Product Lifecycle Management system including documentation management, configuration management, change control management, and risk management, of product/project data. Specific data managed is product/project governance data including requirements, product/project plans, product/project control plans, technical review preparation and results, action items, issues, risks, drawings, work order authorizations, photographs and any other documentation needed to successfully manage the product/project lifecycle. In addition, NGIN 2.0 provides collaboration via the internet, and a single repository for multiple products/projects to manage the lifecycle of their respective product/project, i.e. NGIN 2.0 provides a standardized approach for managing multiple products/projects in a single repository. ", "identifier": "GSC-17271-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17271-1", + "laborHours": 0, + "name": "Next Generation Integrated Network (NGIN) 2.0", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61f1" - }, - "name": "GRAVITE IPS", - "description": "GRAVITE (Government Resources for Algorithm Verification, Independent Testing and Evaluation) IPS (Investigator-led Processing System) is a core component for ingest, archive, distribution, and processing for GRAVITE.\r\nIngest/Archive denotes the ability to receive data from sources that are then validated and verified for long term archiving. Distribution is the ability to supply data to stakeholders. Processing denotes the ability to routinely examine data by automatically running a set of specified algorithms for each instrument.", + "repositoryURL": "https://software.nasa.gov/software/GSC-17271-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], + "Business Systems and Project Management" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61f2" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The Bundle Protocol (BP) is an international standard produced by the Consultative Committee for Space Data Standards (CCSDS). It is a key piece of the planned Interplanetary Internet. The basic idea is that BP is given bundles to deliver, and it delivers them to their specified destination, using the appropriate route. For example, the route might be from a Mars Rover to a Mars Orbiter to a Ground Station on Earth to a Mission Control Center. For each hop along the way, BP asks for assistance from the appropriate lower-level protocol. For example, to move bundles from a Ground Station to a Mission Control Center, it might use the Transmission Control Protocol (tcp). Generally, the lower-level protocol is responsible for providing reliable delivery across one hop, while BP manages the bigger picture (i.e. getting bundles across all the required hops).\r\n\r\nThe Bundle Protocol Software Library implements the Bundle Protocol, using a software architecture that is simple and fast enough to be attractive to Goddard mission designers. It has been developed for the Laser Communication Relay Demonstration (LCRD) mission and the Disruption Tolerant Network (DTN) group. It is useful for any organization (commercial or otherwise) that is interested in being part of the Interplanetary Internet.", + "identifier": "GSC-16816-1", + "laborHours": 0, + "name": "Bundle Protocol Software Library Version 1.0", "organization": "GSFC", - "identifier": "GSC-17261-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-17261-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61f2" - }, - "name": "Bundle Protocol Software Library Version 1.0", - "description": "The Bundle Protocol (BP) is an international standard produced by the Consultative Committee for Space Data Standards (CCSDS). It is a key piece of the planned Interplanetary Internet. The basic idea is that BP is given bundles to deliver, and it delivers them to their specified destination, using the appropriate route. For example, the route might be from a Mars Rover to a Mars Orbiter to a Ground Station on Earth to a Mission Control Center. For each hop along the way, BP asks for assistance from the appropriate lower-level protocol. For example, to move bundles from a Ground Station to a Mission Control Center, it might use the Transmission Control Protocol (tcp). Generally, the lower-level protocol is responsible for providing reliable delivery across one hop, while BP manages the bigger picture (i.e. getting bundles across all the required hops).\r\n\r\nThe Bundle Protocol Software Library implements the Bundle Protocol, using a software architecture that is simple and fast enough to be attractive to Goddard mission designers. It has been developed for the Laser Communication Relay Demonstration (LCRD) mission and the Disruption Tolerant Network (DTN) group. It is useful for any organization (commercial or otherwise) that is interested in being part of the Interplanetary Internet.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16816-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61f1" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "GRAVITE (Government Resources for Algorithm Verification, Independent Testing and Evaluation) IPS (Investigator-led Processing System) is a core component for ingest, archive, distribution, and processing for GRAVITE.\r\nIngest/Archive denotes the ability to receive data from sources that are then validated and verified for long term archiving. Distribution is the ability to supply data to stakeholders. Processing denotes the ability to routinely examine data by automatically running a set of specified algorithms for each instrument.", + "identifier": "GSC-17261-1", + "laborHours": 0, + "name": "GRAVITE IPS", "organization": "GSFC", - "identifier": "GSC-16816-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16816-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-17261-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61f3" }, - "name": "Light-Weight Workflow Engine: A Server for Executing Generic Workflows", - "description": "The Light-Weight Workflow Engine (LWWE) is a server that provides support for automation and orchestration of task execution. Tasks can be scheduled based on dependencies of other tasks' statuses, time and external process execution, such as scripts often used in running scientific models.", - "tags": [ - "NASA", - "GSFC", - "U.S. Government Purpose Release", - "Autonomous Systems" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-6" + }, + "description": "The Light-Weight Workflow Engine (LWWE) is a server that provides support for automation and orchestration of task execution. Tasks can be scheduled based on dependencies of other tasks' statuses, time and external process execution, such as scripts often used in running scientific models.", "identifier": "GSC-16083-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16083-1", + "laborHours": 0, + "name": "Light-Weight Workflow Engine: A Server for Executing Generic Workflows", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61f4" + "usageType": "governmentWideReuse" }, - "name": "Global Precipitation Measurement (GPM) Spacecraft Flight Software (FSW) Version 4.7.2", - "description": "The Global Precipitation Measurement (GPM) spacecraft (S/C) flight software (FSW) controls and coordinates all aspects of the spacecraft's operation in nominal and anomolous conditions. It distributes commands to, and collects data from, all spacecraft subsystems and the science instruments. The FSW controls high gain antenna pointing to TDRSS satellites and manages communications with the ground controllers in real time to receive commands (during SSA contacts) and send housekeeping telemetry data during SSA and MA contacts. It sends science data using the Class-2 CCSDS File Delivery Protocol (CFDP). The GPM FSW monitors the health of most orbiter subsystems and takes corrective actions when necessary. \r\nThe GPM FSW controls the pointing of the spacecraft/instruments to the earth's surface, the orientation of the solar arrays to collect power, and the pointing of the high gain antenna to communicate with TDRSS. The GPM FSW uses the propulsion system to perform orbit station keeping and re-entry upon mission completion. The GPM FSW also implements a safehold controller and can perform \"yaw maneuvers\" to re-orient the spacecraft velocity vector by 180 degrees.\r\nThe GPM FSW uses Goddard's Operating System Abstration Layer (OSAL) and the Core Flight Executive (cFE) software. Ten Core Flight System (CFS) applications were co-developed by GPM and Code 582 and are now available in the Code 582 library for future mission use.\r\n", + "repositoryURL": "https://software.nasa.gov/software/GSC-16083-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", - "Operations" - ], + "Autonomous Systems" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61f5" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Cicero is a generic, customizable, Web-based database application designed to facilitate the document change process. In addition to providing a Web site from which approved personnel may download current versions of base-lined documentation for their projects, Cicero supports the creation and management of configuration change requests (CCRs). Through Cicero, configured documents may be modified in a controlled fashion.", + "identifier": "GSC-16583-1", + "laborHours": 0, + "name": "Cicero Configuration Management System", "organization": "GSFC", - "identifier": "GSC-16669-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16669-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61f5" + "usageType": "governmentWideReuse" }, - "name": "Cicero Configuration Management System", - "description": "Cicero is a generic, customizable, Web-based database application designed to facilitate the document change process. In addition to providing a Web site from which approved personnel may download current versions of base-lined documentation for their projects, Cicero supports the creation and management of configuration change requests (CCRs). Through Cicero, configured documents may be modified in a controlled fashion.", + "repositoryURL": "https://software.nasa.gov/software/GSC-16583-1", "tags": [ "NASA", "GSFC", "U.S. Government Purpose Release", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61f4" + }, "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The Global Precipitation Measurement (GPM) spacecraft (S/C) flight software (FSW) controls and coordinates all aspects of the spacecraft's operation in nominal and anomolous conditions. It distributes commands to, and collects data from, all spacecraft subsystems and the science instruments. The FSW controls high gain antenna pointing to TDRSS satellites and manages communications with the ground controllers in real time to receive commands (during SSA contacts) and send housekeeping telemetry data during SSA and MA contacts. It sends science data using the Class-2 CCSDS File Delivery Protocol (CFDP). The GPM FSW monitors the health of most orbiter subsystems and takes corrective actions when necessary. \r\nThe GPM FSW controls the pointing of the spacecraft/instruments to the earth's surface, the orientation of the solar arrays to collect power, and the pointing of the high gain antenna to communicate with TDRSS. The GPM FSW uses the propulsion system to perform orbit station keeping and re-entry upon mission completion. The GPM FSW also implements a safehold controller and can perform \"yaw maneuvers\" to re-orient the spacecraft velocity vector by 180 degrees.\r\nThe GPM FSW uses Goddard's Operating System Abstration Layer (OSAL) and the Core Flight Executive (cFE) software. Ten Core Flight System (CFS) applications were co-developed by GPM and Code 582 and are now available in the Code 582 library for future mission use.\r\n", + "identifier": "GSC-16669-1", + "laborHours": 0, + "name": "Global Precipitation Measurement (GPM) Spacecraft Flight Software (FSW) Version 4.7.2", "organization": "GSFC", - "identifier": "GSC-16583-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16583-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16669-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61f6" }, - "name": "General Mission Analysis Tool (GMAT) v.R2016a", - "description": "The General Mission Analysis Tool (GMAT) is the worlds only enterprise, multi-mission, open source software system for space mission design, optimization, and navigation. The system supports missions in flight regimes ranging from low Earth orbit to lunar, libration point, and deep space missions. GMAT is developed by a team of NASA, private industry, public, and private contributors and is used for real-world mission support, engineering studies, as a tool for education, and public engagement.\r\n\r\nGMAT contains models of real world objects such as spacecraft and thrusters, and analysis \"objects\" such as propagators, plots, and reports. These objects are used in a mission sequence in which the user employs commands supported by the system to model mission events and perform estimation.\r\n\r\nFor a complete list of new features, compatibility changes, and bug fixes, see the Release Notes. Below are just some of the new capabilities contained in this release. \r\nProduction quality orbit determination (Operational Certification expected in November, 2016)\r\nCode 500 ephemeris propagator\r\nSTK ephemeris file output\r\nWrite command to save GMAT configurations during execution\r\nInclude macro to load GMAT configurations from external sources during execution\r\nMany new built in math functions and parameters\r\n130 pages of new user documentation\r\n", - "tags": [ - "NASA", - "GSFC", - "Open Source", - "Design and Integration Tools" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-5" + }, + "description": "The General Mission Analysis Tool (GMAT) is the worlds only enterprise, multi-mission, open source software system for space mission design, optimization, and navigation. The system supports missions in flight regimes ranging from low Earth orbit to lunar, libration point, and deep space missions. GMAT is developed by a team of NASA, private industry, public, and private contributors and is used for real-world mission support, engineering studies, as a tool for education, and public engagement.\r\n\r\nGMAT contains models of real world objects such as spacecraft and thrusters, and analysis \"objects\" such as propagators, plots, and reports. These objects are used in a mission sequence in which the user employs commands supported by the system to model mission events and perform estimation.\r\n\r\nFor a complete list of new features, compatibility changes, and bug fixes, see the Release Notes. Below are just some of the new capabilities contained in this release. \r\nProduction quality orbit determination (Operational Certification expected in November, 2016)\r\nCode 500 ephemeris propagator\r\nSTK ephemeris file output\r\nWrite command to save GMAT configurations during execution\r\nInclude macro to load GMAT configurations from external sources during execution\r\nMany new built in math functions and parameters\r\n130 pages of new user documentation\r\n", "identifier": "GSC-17177-1", - "repositoryURL": "https://sourceforge.net/projects/gmat/files/GMAT/GMAT-R2012a", + "laborHours": 0, + "name": "General Mission Analysis Tool (GMAT) v.R2016a", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://sourceforge.net/p/gmat/git/ci/GMAT-R2016a/tree/License.txt", "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-5" - } + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://sourceforge.net/projects/gmat/files/GMAT/GMAT-R2012a", + "tags": [ + "NASA", + "GSFC", + "Open Source", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61f7" }, - "name": "Remote Memory Access Protocol Target Node", - "description": "This NASA technology provides SpaceWire design users with support for executing remote memory access protocol (RMAP) read and write commands. The target IP core is a VHDL description suitable for implementation in a field-programmable gate array (FPGA) or an application-specific integrated circuit (ASIC).", - "tags": [ - "NASA", - "GSFC", - "U.S. Release Only", - "Data Servers Processing and Handling" - ], "contact": { "email": "gsfc-softwarerequest@mail.nasa.gov" }, - "organization": "GSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This NASA technology provides SpaceWire design users with support for executing remote memory access protocol (RMAP) read and write commands. The target IP core is a VHDL description suitable for implementation in a field-programmable gate array (FPGA) or an application-specific integrated circuit (ASIC).", "identifier": "GSC-16467-1", - "repositoryURL": "https://software.nasa.gov/software/GSC-16467-1", + "laborHours": 0, + "name": "Remote Memory Access Protocol Target Node", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/GSC-16467-1", + "tags": [ + "NASA", + "GSFC", + "U.S. Release Only", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61f8" }, - "name": "NASA Root Cause Analysis Tool (RCAT)", - "description": "The NASA Root Cause Analysis Tool (RCAT) has been designed to facilitate the analysis of anomalies, close calls, and accidents and also identify the appropriate corrective actions to prevent recurrence. The software provides an analyst with a quick, easy-to-use, accurate, and repeatable method to perform and document root cause analysis, identify corrective actions, perform trending analysis, and generate usable data for probabilistic risk assessment. All possible causes of accidents-hardware, software, the environment, weather, natural phenomena, external events, human error-can be incorporated into the timeline and fault/causal factor trees. The software features an intuitive logic diagramming capability and uses standard terminology, definitions, and symbols.", - "tags": [ - "NASA", - "HDQS", - "U.S. and Foreign Release", - "Business Systems and Project Management" - ], "contact": { "email": "hq-sra-team@mail.nasa.gov" }, - "organization": "HDQS", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The NASA Root Cause Analysis Tool (RCAT) has been designed to facilitate the analysis of anomalies, close calls, and accidents and also identify the appropriate corrective actions to prevent recurrence. The software provides an analyst with a quick, easy-to-use, accurate, and repeatable method to perform and document root cause analysis, identify corrective actions, perform trending analysis, and generate usable data for probabilistic risk assessment. All possible causes of accidents-hardware, software, the environment, weather, natural phenomena, external events, human error-can be incorporated into the timeline and fault/causal factor trees. The software features an intuitive logic diagramming capability and uses standard terminology, definitions, and symbols.", "identifier": "HQN-11316-1", - "repositoryURL": "https://software.nasa.gov/software/HQN-11316-1", + "laborHours": 0, + "name": "NASA Root Cause Analysis Tool (RCAT)", + "organization": "HDQS", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/HQN-11316-1", + "tags": [ + "NASA", + "HDQS", + "U.S. and Foreign Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61f9" }, - "name": "Jet Propulsion Laboratory (JPL) Stereo Vision Software Suite (JPLV)", - "description": "JPLV provides a set of libraries and utilities for basic robotic vision, including stereo ranging and camera calibration. Primarily intended for vision system users rather than vision system developers, the suite hides most implementation details behind a high-level application user interface. No specialized computer-vision knowledge is required.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Autonomous Systems" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "JPLV provides a set of libraries and utilities for basic robotic vision, including stereo ranging and camera calibration. Primarily intended for vision system users rather than vision system developers, the suite hides most implementation details behind a high-level application user interface. No specialized computer-vision knowledge is required.", "identifier": "NPO-18593-1T", - "repositoryURL": "https://software.nasa.gov/software/NPO-18593-1T", + "laborHours": 0, + "name": "Jet Propulsion Laboratory (JPL) Stereo Vision Software Suite (JPLV)", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-18593-1T", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61fa" }, - "name": "State Chart Autocoder", - "description": "This NASA technology automatically generates code from UML/SysML state-machine models specified in the MagicDraw modeling tool. Input is saved as XML data files, and output is provided by the state-machine implementation code in C, C++, Python, or Promela. A test suite validates output products, and a test harness allows a developer to execute and animate a model with a graphical state-machine monitor. This monitor can run as either a standalone tool or as an Eclipse plug-in to MagicDraw.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", - "identifier": "NPO-47810-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47810-1", - "permissions": { - "licenses": [ - { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61fb" - }, - "name": "ARAJ Low-Density Parity Check (LDPC) Codes", - "description": "This software provides a construction method for protograph-based Low Density Parity Check (LDPC) codes that simultaneously achieve low iterative decoding thresholds and linear minimum distance. The technology can be used for various code rates. Proposed codes may have either fixed input block or fixed output block sizing. Both cases provide rate compatibility. In fact, one encoder and one decoder can support different code rates.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], - "contact": { - "email": "jpl_ott@jpl.nasa.gov" }, + "description": "This NASA technology automatically generates code from UML/SysML state-machine models specified in the MagicDraw modeling tool. Input is saved as XML data files, and output is provided by the state-machine implementation code in C, C++, Python, or Promela. A test suite validates output products, and a test harness allows a developer to execute and animate a model with a graphical state-machine monitor. This monitor can run as either a standalone tool or as an Eclipse plug-in to MagicDraw.", + "identifier": "NPO-47810-1", + "laborHours": 0, + "name": "State Chart Autocoder", "organization": "JPL", - "identifier": "NPO-43949-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-43949-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47810-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb61fc" }, - "name": "Mission Display (MDX) System", - "description": "The Mission Display (MDX) System can be used to visualize a wide variety of raster scan data, including IFSAR images and DEM. The technology enables the user to view very large data sets (greater than 2 gigabytes per image) and offers several ways to combine information from different data sets into a single display window.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Mission Display (MDX) System can be used to visualize a wide variety of raster scan data, including IFSAR images and DEM. The technology enables the user to view very large data sets (greater than 2 gigabytes per image) and offers several ways to combine information from different data sets into a single display window.", "identifier": "NPO-35238-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-35238-1", + "laborHours": 0, + "name": "Mission Display (MDX) System", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61fd" + "usageType": "governmentWideReuse" }, - "name": "GNSS-Inferred Positioning System and Orbit Analysis Simulation Software (GIPSY-OASIS)", - "description": "GIPSY-OASIS is widely used for geophysical and global positioning system research.", + "repositoryURL": "https://software.nasa.gov/software/NPO-35238-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61fb" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software provides a construction method for protograph-based Low Density Parity Check (LDPC) codes that simultaneously achieve low iterative decoding thresholds and linear minimum distance. The technology can be used for various code rates. Proposed codes may have either fixed input block or fixed output block sizing. Both cases provide rate compatibility. In fact, one encoder and one decoder can support different code rates.", + "identifier": "NPO-43949-1", + "laborHours": 0, + "name": "ARAJ Low-Density Parity Check (LDPC) Codes", "organization": "JPL", - "identifier": "NPO-19636-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-19636-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61fe" + "usageType": "governmentWideReuse" }, - "name": "CalSimHydro", - "description": "This Web-based, Google Earth-enabled interactive interface provides a tool for configuring, running, viewing, and downloading the results of a CalSim 3.0 Hydrology Preprocessor program. The software allows the user to (1) interact with a map of water budget areas (WBAs) and display data for a selected WBA in tabular form or as a time series plot; (2) edit input and run a CalSim 3.0 Hydrology Preprocessor; and (3) compare results with base-run output and download the output file. CalSimHydro will be delivered to the California Department of Water Resource (DWR) and released as a part of the CalSim 3.0 system.", + "repositoryURL": "https://software.nasa.gov/software/NPO-43949-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Operations" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61fd" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "GIPSY-OASIS is widely used for geophysical and global positioning system research.", + "identifier": "NPO-19636-1", + "laborHours": 0, + "name": "GNSS-Inferred Positioning System and Orbit Analysis Simulation Software (GIPSY-OASIS)", "organization": "JPL", - "identifier": "NPO-48235-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-48235-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb61ff" + "usageType": "governmentWideReuse" }, - "name": "Autonomous Landing Hazard-Avoidance Technology (ALHAT) Scanning Lidar-Based Simulation for Mars Landing", - "description": "The ALHAT simulation tool provides an efficient software model and a set of algorithms in C++ code for performing scanning lidar-based hazard detection and avoidance.", + "repositoryURL": "https://software.nasa.gov/software/NPO-19636-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61fe" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This Web-based, Google Earth-enabled interactive interface provides a tool for configuring, running, viewing, and downloading the results of a CalSim 3.0 Hydrology Preprocessor program. The software allows the user to (1) interact with a map of water budget areas (WBAs) and display data for a selected WBA in tabular form or as a time series plot; (2) edit input and run a CalSim 3.0 Hydrology Preprocessor; and (3) compare results with base-run output and download the output file. CalSimHydro will be delivered to the California Department of Water Resource (DWR) and released as a part of the CalSim 3.0 system.", + "identifier": "NPO-48235-1", + "laborHours": 0, + "name": "CalSimHydro", "organization": "JPL", - "identifier": "NPO-21220-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-21220-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6200" + "usageType": "governmentWideReuse" }, - "name": "ROAMS Rover Analysis and Modeling Software", - "description": "ROAMS is a planetary rover simulation software package. The technology consists of mechanical models of a rover, instrument arms, actuators and sensors, power resources, terrain interactions, and onboard software.", + "repositoryURL": "https://software.nasa.gov/software/NPO-48235-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb61ff" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The ALHAT simulation tool provides an efficient software model and a set of algorithms in C++ code for performing scanning lidar-based hazard detection and avoidance.", + "identifier": "NPO-21220-1", + "laborHours": 0, + "name": "Autonomous Landing Hazard-Avoidance Technology (ALHAT) Scanning Lidar-Based Simulation for Mars Landing", "organization": "JPL", - "identifier": "NPO-30722-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-30722-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6201" + "usageType": "governmentWideReuse" }, - "name": "Rock Identification Toolkit (RockIT)", - "description": "RockIT is an interactive tool used by mission scientists to identify and characterize rocks and rock distributions.", + "repositoryURL": "https://software.nasa.gov/software/NPO-21220-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6200" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "ROAMS is a planetary rover simulation software package. The technology consists of mechanical models of a rover, instrument arms, actuators and sensors, power resources, terrain interactions, and onboard software.", + "identifier": "NPO-30722-1", + "laborHours": 0, + "name": "ROAMS Rover Analysis and Modeling Software", "organization": "JPL", - "identifier": "NPO-41133-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-41133-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6202" + "usageType": "governmentWideReuse" }, - "name": "Defect Detection and Prevention (DDP)", - "description": "DDP evaluates criticality by generating a tree of failure modes and a tree of requirements and then evaluating the impact of each failure mode on each requirement.", + "repositoryURL": "https://software.nasa.gov/software/NPO-30722-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "System Testing" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6201" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "RockIT is an interactive tool used by mission scientists to identify and characterize rocks and rock distributions.", + "identifier": "NPO-41133-1", + "laborHours": 0, + "name": "Rock Identification Toolkit (RockIT)", "organization": "JPL", - "identifier": "NPO-20741-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-20741-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-41133-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6203" }, - "name": "Automated Camera Calibration Software (ACCS)", - "description": "Using collected metrology data, the ACCS system significantly increases the efficiency of the entire camera calibration process, resulting in reduced costs and turnaround time. Even in extreme conditions, the tool performs calibrations with minimal user input.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "System Testing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Using collected metrology data, the ACCS system significantly increases the efficiency of the entire camera calibration process, resulting in reduced costs and turnaround time. Even in extreme conditions, the tool performs calibrations with minimal user input.", "identifier": "NPO-41312-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-41312-1", + "laborHours": 0, + "name": "Automated Camera Calibration Software (ACCS)", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6204" + "usageType": "governmentWideReuse" }, - "name": "Small Body Navigation and Topography (SBN&T)", - "description": "SBN&T provides an integrated program for the spacecraft navigation and determination of small-body dynamics, shape, and high-resolution topography. Multiple-image stereography and photoclinometry are used to construct high-resolution topographic and albedo maps centers treated as control points. These landmark maps are re-illuminated and correlated with images to act as body-fixed navigation tie-points.", + "repositoryURL": "https://software.nasa.gov/software/NPO-41312-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Autonomous Systems" - ], + "System Testing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6202" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "DDP evaluates criticality by generating a tree of failure modes and a tree of requirements and then evaluating the impact of each failure mode on each requirement.", + "identifier": "NPO-20741-1", + "laborHours": 0, + "name": "Defect Detection and Prevention (DDP)", "organization": "JPL", - "identifier": "NPO-41647-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-41647-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6205" + "usageType": "governmentWideReuse" }, - "name": "Automated Planning and Scheduling Environment (ASPEN)", - "description": "ASPEN automates space mission planning and other tasks that involve the reasoning of time, states, resources, and actions.", + "repositoryURL": "https://software.nasa.gov/software/NPO-20741-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], + "System Testing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6204" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "SBN&T provides an integrated program for the spacecraft navigation and determination of small-body dynamics, shape, and high-resolution topography. Multiple-image stereography and photoclinometry are used to construct high-resolution topographic and albedo maps centers treated as control points. These landmark maps are re-illuminated and correlated with images to act as body-fixed navigation tie-points.", + "identifier": "NPO-41647-1", + "laborHours": 0, + "name": "Small Body Navigation and Topography (SBN&T)", "organization": "JPL", - "identifier": "NPO-41986-1", - "repositoryURL": "https://aspen.jpl.nasa.gov/", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://download.jpl.nasa.gov/", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-41647-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6206" }, - "name": "PixelLearn", - "description": "PixelLearn is a tool for classifying the pixels in scientific image data sets. Based on one or more images on the same grid, the tool uses cutting-edge clustering algorithms to automatically find structures in the image, or to label individual classes and use supervised classification methods to extend the labels to the rest of the image.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "PixelLearn is a tool for classifying the pixels in scientific image data sets. Based on one or more images on the same grid, the tool uses cutting-edge clustering algorithms to automatically find structures in the image, or to label individual classes and use supervised classification methods to extend the labels to the rest of the image.", "identifier": "NPO-42082-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-42082-1", + "laborHours": 0, + "name": "PixelLearn", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/NPO-42082-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6205" + }, + "contact": { + "email": "jpl_ott@jpl.nasa.gov" }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6207" }, - "name": "Spectral Analysis Tool (SAT), Version 6.2", - "description": "The SAT computer program calculates signal spectra, bandwidths, and interference effects for several families of modulation schemes found commonly in radio, satellites, and space communications. It is primarily used for spectrum management purposes to examine the effects of radio frequency interference on a satellite communication system.", + "description": "ASPEN automates space mission planning and other tasks that involve the reasoning of time, states, resources, and actions.", + "identifier": "NPO-41986-1", + "laborHours": 0, + "name": "Automated Planning and Scheduling Environment (ASPEN)", + "organization": "JPL", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://download.jpl.nasa.gov/", + "name": "NASA v3" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://aspen.jpl.nasa.gov/", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Data and Image Processing" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6207" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The SAT computer program calculates signal spectra, bandwidths, and interference effects for several families of modulation schemes found commonly in radio, satellites, and space communications. It is primarily used for spectrum management purposes to examine the effects of radio frequency interference on a satellite communication system.", "identifier": "NPO-43129-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-43129-1", + "laborHours": 0, + "name": "Spectral Analysis Tool (SAT), Version 6.2", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6208" + "usageType": "governmentWideReuse" }, - "name": "Mission Analysis Low-Thrust Optimizer (MALTO)", - "description": "MALTO is a software tool for preliminary design and optimization of low-thrust interplanetary trajectories. The tool is easy to use, has robust convergence, and can handle many intermediate encounters.", + "repositoryURL": "https://software.nasa.gov/software/NPO-43129-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Autonomous Systems" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6209" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Mystic provides very high-fidelity optimization of low-thrust spacecraft trajectories for mission design. The software can be used for general body-centered trajectories, interplanetary trajectories, and trajectories that combine body-centered and interplanetary trajectory legs. Mystic will also provide navigational/operational support for low-thrust spacecraft.", + "identifier": "NPO-43666-1", + "laborHours": 0, + "name": "Mystic Low-Thrust Trajectory Design and Visualization Software", "organization": "JPL", - "identifier": "NPO-43625-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-43625-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6209" + "usageType": "governmentWideReuse" }, - "name": "Mystic Low-Thrust Trajectory Design and Visualization Software", - "description": "Mystic provides very high-fidelity optimization of low-thrust spacecraft trajectories for mission design. The software can be used for general body-centered trajectories, interplanetary trajectories, and trajectories that combine body-centered and interplanetary trajectory legs. Mystic will also provide navigational/operational support for low-thrust spacecraft.", + "repositoryURL": "https://software.nasa.gov/software/NPO-43666-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Autonomous Systems" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6208" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "MALTO is a software tool for preliminary design and optimization of low-thrust interplanetary trajectories. The tool is easy to use, has robust convergence, and can handle many intermediate encounters.", + "identifier": "NPO-43625-1", + "laborHours": 0, + "name": "Mission Analysis Low-Thrust Optimizer (MALTO)", "organization": "JPL", - "identifier": "NPO-43666-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-43666-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb620a" + "usageType": "governmentWideReuse" }, - "name": "Tiled Web Map Service (WMS) Server", - "description": "This technology processes WMS requests that comply with a given request grid from an existing tile dataset. It also generates the KML configuration files required to access WMS tiles.", + "repositoryURL": "https://software.nasa.gov/software/NPO-43625-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Data and Image Processing" - ], + "Autonomous Systems" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb620b" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Utilizing STAMiNA, a simulation tool for the Advanced Sensors Collaborative Technology Alliance Microsensor Network Architecture, users can define: (1) mission environment, including terrain features; (2) a sensed object set, including multiple threat objects; (3) sensor placements, their modalities, and their abilities to sense different object types; (4) threat object trajectories; (5) sensing and sensed data dissemination for information fusion; and (6) various network configurations and formations between sensors to examine the coupling of sensing and communication. With these features, STAMiNA provides an overall system-level performance of different sensor network architectures under different parametric conditions.", + "identifier": "NPO-45213-1", + "laborHours": 0, + "name": "STAMiNA", "organization": "JPL", - "identifier": "NPO-44685-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-44685-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb620b" + "usageType": "governmentWideReuse" }, - "name": "STAMiNA", - "description": "Utilizing STAMiNA, a simulation tool for the Advanced Sensors Collaborative Technology Alliance Microsensor Network Architecture, users can define: (1) mission environment, including terrain features; (2) a sensed object set, including multiple threat objects; (3) sensor placements, their modalities, and their abilities to sense different object types; (4) threat object trajectories; (5) sensing and sensed data dissemination for information fusion; and (6) various network configurations and formations between sensors to examine the coupling of sensing and communication. With these features, STAMiNA provides an overall system-level performance of different sensor network architectures under different parametric conditions.", + "repositoryURL": "https://software.nasa.gov/software/NPO-45213-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb620c" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The POPS application suite performs mission design analysis of a spacecraft orbiting a terrestrial planet. POPS is not intended for the study of hyperbolic or interplanetary orbits, although some limited hyperbolic capabilities exist.", + "identifier": "NPO-45418-1", + "laborHours": 0, + "name": "Planetary Observer Planning Software (POPS)", "organization": "JPL", - "identifier": "NPO-45213-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45213-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb620c" + "usageType": "governmentWideReuse" }, - "name": "Planetary Observer Planning Software (POPS)", - "description": "The POPS application suite performs mission design analysis of a spacecraft orbiting a terrestrial planet. POPS is not intended for the study of hyperbolic or interplanetary orbits, although some limited hyperbolic capabilities exist.", + "repositoryURL": "https://software.nasa.gov/software/NPO-45418-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Autonomous Systems" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb620a" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology processes WMS requests that comply with a given request grid from an existing tile dataset. 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The technology obtains input from a variety of receiver types and satellites and outputs full atmospheric and ionospheric retrievals.", + "identifier": "NPO-30596-1", + "laborHours": 0, + "name": "GPS Occultation Analysis System (GOAS)", "organization": "JPL", - "identifier": "NPO-40075-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-40075-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb620f" + "usageType": "governmentWideReuse" }, - "name": "GPS Occultation Analysis System (GOAS)", - "description": "GOAS processes atmospheric and ionospheric occultation data obtained from low-Earth-orbiting global positioning systems transmission receivers. The technology obtains input from a variety of receiver types and satellites and outputs full atmospheric and ionospheric retrievals.", + "repositoryURL": "https://software.nasa.gov/software/NPO-30596-1", "tags": [ "NASA", "JPL", "U.S. and Foreign Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb620e" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The File Exchange Interface (FEI) service offers secure file transaction, storage, transportation, and management services. The tool is implemented with the latest Java technologies for maximum portability and supports a 64-bit file system for very large file transfers over secure socket connections. While database-driven for file transactions and user access management, FEI offers an interactive client software suite for managing administration and general use.", + "identifier": "NPO-40075-1", + "laborHours": 0, + "name": "File Exchange Interface (FEI 5)", "organization": "JPL", - "identifier": "NPO-30596-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-30596-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-40075-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release (Project)", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6210" }, - "name": "Global Assimilative Ionosphere Model (GAIM)", - "description": "GAIM is used to estimate the three-dimensional electron density distribution of the Earth's ionosphere as a function of time. To achieve high accuracy for users, the software accepts a wide variety of ionospheric measurements as input and produces output either in real time or in post-processing. The software can also generate predictions of the electron density structure for several hours or days into the future.", - "tags": [ - "NASA", - "JPL", - "U.S. and Foreign Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "GAIM is used to estimate the three-dimensional electron density distribution of the Earth's ionosphere as a function of time. To achieve high accuracy for users, the software accepts a wide variety of ionospheric measurements as input and produces output either in real time or in post-processing. The software can also generate predictions of the electron density structure for several hours or days into the future.", "identifier": "NPO-40584-1", - "repositoryURL": "https://iono.jpl.nasa.gov/gaim/intro.html", + "laborHours": 0, + "name": "Global Assimilative Ionosphere Model (GAIM)", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://iono.jpl.nasa.gov/gaim/intro.html", + "tags": [ + "NASA", + "JPL", + "U.S. and Foreign Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6211" }, - "name": "Delay and Disruption Tolerant Networking Licklider Transmission Protocol (LTP) MACHETE model", - "description": "This software models the Delay Tolerant Networking - Licklider Transmision Protocol for JPL's MACHETE (Multimission Advanced Communications Hybrid Environment for Test and Evaluation). The Multi-mission Advanced Communications Hybrid Environment for Test and Evaluation (MACHETE) has been developed at JPL for the purpose of determining the performance of existing and emerging communications protocols and services in the context of space exploration. This protocol model can assist NASA network designers who wish to use Delay Tolerant Networking protocols.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "This software models the Delay Tolerant Networking - Licklider Transmision Protocol for JPL's MACHETE (Multimission Advanced Communications Hybrid Environment for Test and Evaluation). The Multi-mission Advanced Communications Hybrid Environment for Test and Evaluation (MACHETE) has been developed at JPL for the purpose of determining the performance of existing and emerging communications protocols and services in the context of space exploration. This protocol model can assist NASA network designers who wish to use Delay Tolerant Networking protocols.", "identifier": "NPO-43410-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-43410-1", + "laborHours": 0, + "name": "Delay and Disruption Tolerant Networking Licklider Transmission Protocol (LTP) MACHETE model", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-43410-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6212" }, - "name": "Digital Interface Board to control phase and amplitude of 4 channels", - "description": "The digital interface board will control the phase and amplitude of the signals for each element in the array. A host computer running Agilent VEE sends commands via serial UART connection to a Xilinx VirtexII FPGA. The commands are decoded and either outputs are set or telemetry data is sent back to the host computer describing the status and the current phase and amplitude settings.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "The digital interface board will control the phase and amplitude of the signals for each element in the array. A host computer running Agilent VEE sends commands via serial UART connection to a Xilinx VirtexII FPGA. The commands are decoded and either outputs are set or telemetry data is sent back to the host computer describing the status and the current phase and amplitude settings.", "identifier": "NPO-42778-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-42778-1", + "laborHours": 0, + "name": "Digital Interface Board to control phase and amplitude of 4 channels", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-42778-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6213" }, - "name": "Deep Space Network (DSN) config converter", - "description": "This tool is used in opperations by the MRO and Phoenix missions. The tool provides both time savings and risk reduction in the periodic updating of the dsn_config modeling adaptation. The dsn config converter tool is used for converting the dsn_config.cvs file into a multi-mission AAF file for use by the multi-mssion autogen/apgen sequence generation tool. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "This tool is used in opperations by the MRO and Phoenix missions. The tool provides both time savings and risk reduction in the periodic updating of the dsn_config modeling adaptation. The dsn config converter tool is used for converting the dsn_config.cvs file into a multi-mission AAF file for use by the multi-mssion autogen/apgen sequence generation tool. ", "identifier": "NPO-45423-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45423-1", + "laborHours": 0, + "name": "Deep Space Network (DSN) config converter", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45423-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6214" }, - "name": "SEQ diff suite", - "description": "The \"seq diff suite\" has direct benefit to the conduct of space activities in that it reduces cost and risk associated with the sequencing (commanding) and review of command products for spacecraft operated by the MGSS/MMO MPST operations teams. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "The \"seq diff suite\" has direct benefit to the conduct of space activities in that it reduces cost and risk associated with the sequencing (commanding) and review of command products for spacecraft operated by the MGSS/MMO MPST operations teams. ", "identifier": "NPO-45438-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45438-1", + "laborHours": 0, + "name": "SEQ diff suite", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6215" + "usageType": "governmentWideReuse" }, - "name": "MRO SOW daily", - "description": "The MRO SOW daily tool has been developed to automate the Sequence-Engineer Of the Week (SOW) daily procedure. This procedure and now the tool is performed on a daily basis in the MRO sequence operations environment to monitor the computing environment resources and ensure that the system continues to perform as expected. The tool is used to monitor the file system capacity and ensure that required space is available for performing day to day spacecraft operations and commanding. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45438-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6215" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "The MRO SOW daily tool has been developed to automate the Sequence-Engineer Of the Week (SOW) daily procedure. This procedure and now the tool is performed on a daily basis in the MRO sequence operations environment to monitor the computing environment resources and ensure that the system continues to perform as expected. The tool is used to monitor the file system capacity and ensure that required space is available for performing day to day spacecraft operations and commanding. ", "identifier": "NPO-45439-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45439-1", + "laborHours": 0, + "name": "MRO SOW daily", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6216" + "usageType": "governmentWideReuse" }, - "name": "DDOR SASF to APF tool (ddor_sasf2apf)", - "description": "The \"DDOR SASF to APF tool\" has direct benefit to the conduct of space activities in that it reduces cost and risk associated with the sequencing of delta-door observations with the MRO spacecraft (and ODY spacecraft for MSPA DDOR). ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45439-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6216" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "The \"DDOR SASF to APF tool\" has direct benefit to the conduct of space activities in that it reduces cost and risk associated with the sequencing of delta-door observations with the MRO spacecraft (and ODY spacecraft for MSPA DDOR). ", "identifier": "NPO-45413-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45413-1", + "laborHours": 0, + "name": "DDOR SASF to APF tool (ddor_sasf2apf)", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6217" + "usageType": "governmentWideReuse" }, - "name": "Autogen hypertext map generator", - "description": "This tool is now being used in the flight operations environment to document the MRO and multi-mission autogen/apgen model files. These hypertext maps are also being used in multi-mission autogen/apgen training sessions. The autogen hyper text map generator parses the autogen script and the autogen model files and produces a hypertext of the files to aid in the navigation of the model. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45413-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6217" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "This tool is now being used in the flight operations environment to document the MRO and multi-mission autogen/apgen model files. These hypertext maps are also being used in multi-mission autogen/apgen training sessions. The autogen hyper text map generator parses the autogen script and the autogen model files and produces a hypertext of the files to aid in the navigation of the model. ", + "identifier": "NPO-45424-1", + "laborHours": 0, + "name": "Autogen hypertext map generator", "organization": "JPL", - "identifier": "NPO-45424-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45424-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45424-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6218" }, - "name": "Degra, version 3", - "description": "Degra is relevant to NASA current and future work. Degra is currently being used by the Mars Science Laboratory project for prediction of MMRTG performance on Mars. In addition Degra is to be used for future SMD missions where RTG power generation is applied. Degra is a generalized simulation of the performance and degradation of a radioisotope thermoelectric Generator (RTG) over its lifetime. It is provided with a graphical user interface (GUI) which is used to edit the input parameters which describe the initial state of the RTG and the time-varying loads and environment to which it will be exposed. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "Degra is relevant to NASA current and future work. Degra is currently being used by the Mars Science Laboratory project for prediction of MMRTG performance on Mars. In addition Degra is to be used for future SMD missions where RTG power generation is applied. Degra is a generalized simulation of the performance and degradation of a radioisotope thermoelectric Generator (RTG) over its lifetime. It is provided with a graphical user interface (GUI) which is used to edit the input parameters which describe the initial state of the RTG and the time-varying loads and environment to which it will be exposed. ", "identifier": "NPO-45252-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45252-1", + "laborHours": 0, + "name": "Degra, version 3", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45252-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6219" }, - "name": "Delivering Images for Mars Rover Science Planning", - "description": "Images are tiled at multiple levels of detail and an image browsing application makes requests for tiles instead of entire images, dramatically speeding up image delivery. This solution scales up to images of arbitrary size. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "Images are tiled at multiple levels of detail and an image browsing application makes requests for tiles instead of entire images, dramatically speeding up image delivery. This solution scales up to images of arbitrary size. ", "identifier": "NPO-45671-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45671-1", + "laborHours": 0, + "name": "Delivering Images for Mars Rover Science Planning", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb621a" + "usageType": "governmentWideReuse" }, - "name": "SPACKLE: Scripts Providing A Cool Kit of teLemetry Enhancing tools", - "description": "This software comprises a set of individual tools (written in Perl, C, and C++) that perform a variety of useful searches and shortcuts thathelp streamline MER mission operations. Functions include: Generating text-only, annotated, and web-enhanced views of command sequences - Labeling integer enumerations with their symbolic meaning in textmessages (EVRs) and and engineering channels (EH&A) - Systematic detection of corruption within data products - Text-only displays of data product catalogs and downlink status - Validation and labeling of commands related to data products - Convenient searches over any number of Martian Solar Days (sols) - EH&A initial conditions table generation - Simplified construction and simulation of command sequences - Time conversion", + "repositoryURL": "https://software.nasa.gov/software/NPO-45671-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb621a" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "This software comprises a set of individual tools (written in Perl, C, and C++) that perform a variety of useful searches and shortcuts thathelp streamline MER mission operations. Functions include: Generating text-only, annotated, and web-enhanced views of command sequences - Labeling integer enumerations with their symbolic meaning in textmessages (EVRs) and and engineering channels (EH&A) - Systematic detection of corruption within data products - Text-only displays of data product catalogs and downlink status - Validation and labeling of commands related to data products - Convenient searches over any number of Martian Solar Days (sols) - EH&A initial conditions table generation - Simplified construction and simulation of command sequences - Time conversion", "identifier": "NPO-45700-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45700-1", + "laborHours": 0, + "name": "SPACKLE: Scripts Providing A Cool Kit of teLemetry Enhancing tools", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb621b" + "usageType": "governmentWideReuse" }, - "name": "MRO DKF Post Processing Tool", - "description": "Mars Reconnaissance Orbiter (MRO) Deep Space Network (DSN) Keyword File(DKF) Post Processing Tool: this tool has value to NASA's activities in that it is used by the MRO Mission Planning Sequencing Team (MPST) team to post process the DSN Keyword File (DKF) product that is delivered to the DSN for commanding DSN ground equipment in support of the MRO spacecraft. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45700-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb621b" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "Mars Reconnaissance Orbiter (MRO) Deep Space Network (DSN) Keyword File(DKF) Post Processing Tool: this tool has value to NASA's activities in that it is used by the MRO Mission Planning Sequencing Team (MPST) team to post process the DSN Keyword File (DKF) product that is delivered to the DSN for commanding DSN ground equipment in support of the MRO spacecraft. ", "identifier": "NPO-45481-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45481-1", + "laborHours": 0, + "name": "MRO DKF Post Processing Tool", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb621c" + "usageType": "governmentWideReuse" }, - "name": "MRO Mega Check Tool", - "description": "Mars Reconnaissance Orbiter (MRO) Mega Check Tool: this tool has value to NASA's activities in that it is used by the MRO Mission Planning Sequencing Team (MPST) team to inspect and validate every back ground sequence. Through its use the tool creates considerable cost savings and risk reduction by automating many tedious and error prone checks. The result is the review process takes considerable less time and is more thorough. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45481-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb621c" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "Mars Reconnaissance Orbiter (MRO) Mega Check Tool: this tool has value to NASA's activities in that it is used by the MRO Mission Planning Sequencing Team (MPST) team to inspect and validate every back ground sequence. Through its use the tool creates considerable cost savings and risk reduction by automating many tedious and error prone checks. The result is the review process takes considerable less time and is more thorough. ", "identifier": "NPO-45480-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45480-1", + "laborHours": 0, + "name": "MRO Mega Check Tool", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45480-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb621d" }, - "name": "Contact Graph Routing", - "description": "This software was developed to support the NASA DTN Technology Readiness program. The Interplanetary Overlay Network (ION) communication system is an implementation of Delay-Tolerant Networking (DTN) protocols for space flight operations. It enables reliable automatic data communication over a network of arbitrarily complex topology comprising both deep-space links and more Internet-like connections. \r\n", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "This software was developed to support the NASA DTN Technology Readiness program. The Interplanetary Overlay Network (ION) communication system is an implementation of Delay-Tolerant Networking (DTN) protocols for space flight operations. It enables reliable automatic data communication over a network of arbitrarily complex topology comprising both deep-space links and more Internet-like connections. \r\n", "identifier": "NPO-45488-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45488-1", + "laborHours": 0, + "name": "Contact Graph Routing", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45488-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb621e" }, - "name": "Mars Science Laboratory Workstation Test Set (WSTS)", - "description": "The WSTS is currently being used in the mainline flight software development process for the MSL project. The WSTS (Workstation Test Set) is used by the MSL flight software team for development. It provides PCI card level simulation for avionics hardware, allowing testing for all but the lowest layers of the software. It uses POSIX shared memory and synchronization in a Linux environment to provide high-resolution simulation time-slicing. The software uses Linux shared memory to emulate PCI hardware, and uses POSIX synchronization facilities to synchronize the interaction between simulation and the flight software.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "The WSTS is currently being used in the mainline flight software development process for the MSL project. The WSTS (Workstation Test Set) is used by the MSL flight software team for development. It provides PCI card level simulation for avionics hardware, allowing testing for all but the lowest layers of the software. It uses POSIX shared memory and synchronization in a Linux environment to provide high-resolution simulation time-slicing. The software uses Linux shared memory to emulate PCI hardware, and uses POSIX synchronization facilities to synchronize the interaction between simulation and the flight software.", "identifier": "NPO-45690-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45690-1", + "laborHours": 0, + "name": "Mars Science Laboratory Workstation Test Set (WSTS)", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb621f" + "usageType": "governmentWideReuse" }, - "name": "Autonomous Data Reduction for NASA Earth Science Data", - "description": "NASA atmospheric and Earth science missions generate vast amounts of data every day. Clustering algorithms are used in various applications including pattern recognition, classification, data compression, regression, and related optimization problems. The design implements a computational solution for an autonomous data-reduction/clustering process to produce a representative distribution and joint relationships of the data without assuming a specific type of distribution and relationship nor resorting to domain-specific knowledge about the data. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45690-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb621f" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", - "identifier": "NPO-45583-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45583-1", - "permissions": { - "licenses": [ - { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6220" }, - "name": "JPLFineCal - Automated Camera Array Fine Calibration", - "description": "This software should be applicable to any aerial array of cameras. The algorithm assumes that features found in the imagery are at infinity, so it is not well suited to ground applications. This software fits into a larger program developed by the customer. That program collects synchronized images from an array of cameras mounted in parallel on a gimballed frame attached to an aircraft. In addition GPS and IMU data is collected to allow the images to be registered to ground locations. The aircraft circles over an area of interest. Synchronized images are captured from each camera in the array and are stitched togehter into a single very high resolution image is is projected onto an elevation map of the ground. ", + "description": "NASA atmospheric and Earth science missions generate vast amounts of data every day. Clustering algorithms are used in various applications including pattern recognition, classification, data compression, regression, and related optimization problems. The design implements a computational solution for an autonomous data-reduction/clustering process to produce a representative distribution and joint relationships of the data without assuming a specific type of distribution and relationship nor resorting to domain-specific knowledge about the data. ", + "identifier": "NPO-45583-1", + "laborHours": 0, + "name": "Autonomous Data Reduction for NASA Earth Science Data", + "organization": "JPL", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/NPO-45583-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6220" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "This software should be applicable to any aerial array of cameras. The algorithm assumes that features found in the imagery are at infinity, so it is not well suited to ground applications. This software fits into a larger program developed by the customer. That program collects synchronized images from an array of cameras mounted in parallel on a gimballed frame attached to an aircraft. In addition GPS and IMU data is collected to allow the images to be registered to ground locations. The aircraft circles over an area of interest. Synchronized images are captured from each camera in the array and are stitched togehter into a single very high resolution image is is projected onto an elevation map of the ground. ", "identifier": "NPO-45715-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45715-1", + "laborHours": 0, + "name": "JPLFineCal - Automated Camera Array Fine Calibration", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45715-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6221" }, - "name": "Netmeter: Multichannel networked phasemeter readout and analysis software", - "description": "This software is used for Precision Deployable Apertures and Structures project, demonstrating the technology for AMD. It will likely be reused in GSE for AMD. We've also used it to measure piezoelectric actuators for the PICTURE sounding rocket experiment. Netmeter reads the outputs of several phasemeters, and either displays it on the screen, saves it to disk, or provides data to a graphical interface (LabView or Web) over the lab network. The built-in web server allows remote operation without neeting a separate server.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "This software is used for Precision Deployable Apertures and Structures project, demonstrating the technology for AMD. It will likely be reused in GSE for AMD. We've also used it to measure piezoelectric actuators for the PICTURE sounding rocket experiment. Netmeter reads the outputs of several phasemeters, and either displays it on the screen, saves it to disk, or provides data to a graphical interface (LabView or Web) over the lab network. The built-in web server allows remote operation without neeting a separate server.", "identifier": "NPO-45505-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45505-1", + "laborHours": 0, + "name": "Netmeter: Multichannel networked phasemeter readout and analysis software", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45505-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6222" }, - "name": "FPGA phasemeter firmware", - "description": "The phasemeter is an important part of a laser metrology system for measuring absolute distances. This software is used to build a precision structure, like a really big telescope, which would deploy in space. Since lightweight deployment mechanisms aren't accurate enough for high-resolution optical telescopes, the laser metrology system measure distances on the deployed structure. The phasemeter is the stage of the metrology system that laser relative phases into distance measurements, which are used to actively control the structure with sub-micron accuracy. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "The phasemeter is an important part of a laser metrology system for measuring absolute distances. This software is used to build a precision structure, like a really big telescope, which would deploy in space. Since lightweight deployment mechanisms aren't accurate enough for high-resolution optical telescopes, the laser metrology system measure distances on the deployed structure. The phasemeter is the stage of the metrology system that laser relative phases into distance measurements, which are used to actively control the structure with sub-micron accuracy. ", "identifier": "NPO-45575-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45575-1", + "laborHours": 0, + "name": "FPGA phasemeter firmware", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6223" + "usageType": "governmentWideReuse" }, - "name": "Multi-mission Automated Task Invocation Subsystem", - "description": "This software benefits flight projects by lowering development and operations costs, and reducing risks while increasing reliability. Although implemented to support instrument product generation, other project teams or subsystems requiring timely and reliable execution of programs and applications across all mission phases could utilize these capabilities. MATIS s a distributed data processing framework for the automated generation of instrument products. It is a workflow manager that executes programs in a specific order and under specific conditions. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45575-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6224" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "This software is designed to reduce risk, design cost, and implementation cost of theDSN modernization. This work has a direct impact on the cost and available volume of space communications, which are major drivers of mission design and NASA planning. ", + "identifier": "NPO-45513-1", + "laborHours": 0, + "name": "DSN Simulator", "organization": "JPL", - "identifier": "NPO-45630-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45630-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6224" + "usageType": "governmentWideReuse" }, - "name": "DSN Simulator", - "description": "This software is designed to reduce risk, design cost, and implementation cost of theDSN modernization. This work has a direct impact on the cost and available volume of space communications, which are major drivers of mission design and NASA planning. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45513-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6223" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "This software benefits flight projects by lowering development and operations costs, and reducing risks while increasing reliability. Although implemented to support instrument product generation, other project teams or subsystems requiring timely and reliable execution of programs and applications across all mission phases could utilize these capabilities. MATIS s a distributed data processing framework for the automated generation of instrument products. It is a workflow manager that executes programs in a specific order and under specific conditions. ", + "identifier": "NPO-45630-1", + "laborHours": 0, + "name": "Multi-mission Automated Task Invocation Subsystem", "organization": "JPL", - "identifier": "NPO-45513-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45513-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6225" - }, - "name": "Data Management Applications for the Service Preparation Subsystem", - "description": "The SPS UIP is currently being used in direct support of spacecraft tracking activities in the Deep Space Network. This suite of UIs could be adapted to support operations environments requiring upload and management of input complex, interdependent input data, and monitor and control of a implementation utilizing an SQL-compliant database. Interaction with a complex DBMS system is a tedious and error-prone process that requires highly-trained professionals. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45630-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6225" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "The SPS UIP is currently being used in direct support of spacecraft tracking activities in the Deep Space Network. This suite of UIs could be adapted to support operations environments requiring upload and management of input complex, interdependent input data, and monitor and control of a implementation utilizing an SQL-compliant database. Interaction with a complex DBMS system is a tedious and error-prone process that requires highly-trained professionals. ", "identifier": "NPO-45021-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45021-1", + "laborHours": 0, + "name": "Data Management Applications for the Service Preparation Subsystem", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6226" + "usageType": "governmentWideReuse" }, - "name": "Ionospheric Slant TEC Analysis Using GPS-Based Estimation (IonoSTAGE)", - "description": "The Ionospheric Slant TEC Analysis using GNSS-based Estimation (IonoSTAGE) software package is a Matlab platform for performing analysis and visualization of ionospheric slant total electron content (TEC) using measurements of global navigation satellite systems (GNSS). ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45021-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6227" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "The demand for smoke plume height determinations in the climate modeling community is strong. MISR INteractive eXplorer functions both as a general-purpose tool to visualize MISR data and as a specialized tool to analyze properties of smoke and volcanic plumes. ", + "identifier": "NPO-47098-1", + "laborHours": 0, + "name": "MISR INteractive eXplorer", "organization": "JPL", - "identifier": "NPO-43504-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-43504-1", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" + "URL": "https://github.com/nasa/MINX/blob/master/LICENSE.txt", + "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6227" - }, - "name": "MISR INteractive eXplorer", - "description": "The demand for smoke plume height determinations in the climate modeling community is strong. MISR INteractive eXplorer functions both as a general-purpose tool to visualize MISR data and as a specialized tool to analyze properties of smoke and volcanic plumes. ", + "repositoryURL": "https://github.com/nasa/MINX", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6226" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-6" + }, + "description": "The Ionospheric Slant TEC Analysis using GNSS-based Estimation (IonoSTAGE) software package is a Matlab platform for performing analysis and visualization of ionospheric slant total electron content (TEC) using measurements of global navigation satellite systems (GNSS). ", + "identifier": "NPO-43504-1", + "laborHours": 0, + "name": "Ionospheric Slant TEC Analysis Using GPS-Based Estimation (IonoSTAGE)", "organization": "JPL", - "identifier": "NPO-47098-1", - "repositoryURL": "https://github.com/nasa/MINX", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/MINX/blob/master/LICENSE.txt", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6228" + "usageType": "governmentWideReuse" }, - "name": "Automatic Rock Detection and Mapping from HiRISE Imagery", - "description": "This software is currently being used by the Phoenix mission for landing site selection. So far 39 HiRISE imagery (> 28 GB) covering one sigma landing ellipse of the three primary landing sites have been processed and their rock distribution maps have been produced. Over 10 million hazard rocks have been detected and mapped. Without this system, it would be impossible to produce such maps to meet the landing site certification review deadline. This technology is also applicable to the Mars Science Laboratory (MSL) Mission as well as to any future surface missions. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-43504-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6228" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "This software is currently being used by the Phoenix mission for landing site selection. So far 39 HiRISE imagery (> 28 GB) covering one sigma landing ellipse of the three primary landing sites have been processed and their rock distribution maps have been produced. Over 10 million hazard rocks have been detected and mapped. Without this system, it would be impossible to produce such maps to meet the landing site certification review deadline. This technology is also applicable to the Mars Science Laboratory (MSL) Mission as well as to any future surface missions. ", "identifier": "NPO-45752-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45752-1", + "laborHours": 0, + "name": "Automatic Rock Detection and Mapping from HiRISE Imagery", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6229" - }, - "name": "DailyPlanet, a system for continuous delivery of MODIS imagery to internet mapping applications", - "description": "This software has great value for the aeronautical and space activities, by making satellite imagery easily available for mapping applications, and incresing the public awareness. Many applications exist, from climate and weather monitoring to real-time navigation and disaster response. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45752-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6229" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "This software has great value for the aeronautical and space activities, by making satellite imagery easily available for mapping applications, and incresing the public awareness. Many applications exist, from climate and weather monitoring to real-time navigation and disaster response. ", "identifier": "NPO-45778-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45778-1", + "laborHours": 0, + "name": "DailyPlanet, a system for continuous delivery of MODIS imagery to internet mapping applications", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb622a" + "usageType": "governmentWideReuse" }, - "name": "Policy Base Management Natural Language Parser", - "description": "This software would be considered generally valuable to both manned and unmanned science gathering programs. Because policy statements can be domain independent this software can equally be applied to a vast variety of different applications. PBEM is a rules-based approach to enterprise management that can be used to automate certain management tasks. PBEM simplifies the management of a given endeavor by establishing policies to deal with situations that are likely to occur. Policies are operating rules that can be referred to as a means of maintaining order, security, consistency, or other ways of successfully furthering a goal or mission. PBEM provides a way of managing configuration of network elements, applications and processes via a set of high-level rules or business policies rather than managing individual elements. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45778-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb622b" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "This instrument can be used for surveying of planetary landscapes by spectral imaging. It can also be used for battlefield surveillance and spectral imaging of live tissues for disease detection. CTIS (Computed Tomography Imaging Spectrometer) is a novel instrument that enables transient-level multi-spectral imaging by capturing spatial and spectral information in a single snapshot. ", + "identifier": "NPO-45831-1", + "laborHours": 0, + "name": "Parallel Computing for Computed-Tomography Imaging Spectrometer", "organization": "JPL", - "identifier": "NPO-45816-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45816-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb622b" + "usageType": "governmentWideReuse" }, - "name": "Parallel Computing for Computed-Tomography Imaging Spectrometer", - "description": "This instrument can be used for surveying of planetary landscapes by spectral imaging. It can also be used for battlefield surveillance and spectral imaging of live tissues for disease detection. CTIS (Computed Tomography Imaging Spectrometer) is a novel instrument that enables transient-level multi-spectral imaging by capturing spatial and spectral information in a single snapshot. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45831-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb622a" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "This software would be considered generally valuable to both manned and unmanned science gathering programs. Because policy statements can be domain independent this software can equally be applied to a vast variety of different applications. PBEM is a rules-based approach to enterprise management that can be used to automate certain management tasks. PBEM simplifies the management of a given endeavor by establishing policies to deal with situations that are likely to occur. Policies are operating rules that can be referred to as a means of maintaining order, security, consistency, or other ways of successfully furthering a goal or mission. PBEM provides a way of managing configuration of network elements, applications and processes via a set of high-level rules or business policies rather than managing individual elements. ", + "identifier": "NPO-45816-1", + "laborHours": 0, + "name": "Policy Base Management Natural Language Parser", "organization": "JPL", - "identifier": "NPO-45831-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45831-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45816-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb622c" }, - "name": "Multichannel monitor-stabilizer for injection-locked lasers", - "description": "This software was designed under for a NASA project. Its primar goal is to enable automated functioning of the systems, a capability important for aeronautical and space NASA activities. Temp tracker\" and \"Temp tracker 12 ch\" (a single channel and 12 channel versions) are programs designed to support the stable operation of the injection-locked slave laser(s) in autonomous regime. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "This software was designed under for a NASA project. Its primar goal is to enable automated functioning of the systems, a capability important for aeronautical and space NASA activities. Temp tracker\" and \"Temp tracker 12 ch\" (a single channel and 12 channel versions) are programs designed to support the stable operation of the injection-locked slave laser(s) in autonomous regime. ", "identifier": "NPO-45907-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45907-1", + "laborHours": 0, + "name": "Multichannel monitor-stabilizer for injection-locked lasers", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45907-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb622d" }, - "name": "Ensemble REST: Framework for RESTful WebServices in OSGI", - "description": "REST-based web services are a great tool for connecting a diverse set of components together in a clean and simple fashion. Ensemble REST makes it easy for developers to write and deploy RESTful web applications, and the HTTP protocol enables anyone to access and utilize the exposed services. There are libraries available in almost every programming language in order to connect a program in the language to an HTTP service. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "REST-based web services are a great tool for connecting a diverse set of components together in a clean and simple fashion. Ensemble REST makes it easy for developers to write and deploy RESTful web applications, and the HTTP protocol enables anyone to access and utilize the exposed services. There are libraries available in almost every programming language in order to connect a program in the language to an HTTP service. ", "identifier": "NPO-45848-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45848-1", + "laborHours": 0, + "name": "Ensemble REST: Framework for RESTful WebServices in OSGI", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45848-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb622e" }, - "name": "Deep Space Network Tracking Data Visualization", - "description": "This software suite is used in the Network Operations and Control Center (DSCC) at JPL, at all three Deep Space Communication Complexes at Goldstone, Canberra, and Madrid. It is used daily in on-going efforts to track spacecrafts.This software is also used in the research and technology development task NG-DSN for monitor and control of an antenna array using Temporal Constraints Network. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "This software suite is used in the Network Operations and Control Center (DSCC) at JPL, at all three Deep Space Communication Complexes at Goldstone, Canberra, and Madrid. It is used daily in on-going efforts to track spacecrafts.This software is also used in the research and technology development task NG-DSN for monitor and control of an antenna array using Temporal Constraints Network. ", "identifier": "NPO-45758-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45758-1", + "laborHours": 0, + "name": "Deep Space Network Tracking Data Visualization", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45758-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb622f" }, - "name": "Testgen - a combinatorial test-suite generation tool", - "description": "This system has applicability to the Constellation Program in NASA. It has been used to generate test suites for the analysis of ANTARES Re-Entry Guidance Algorithms. The main purpose of this software is to generate as few test-cases as possible that covers the test-space of a system as specified by a set of user requirements.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "This system has applicability to the Constellation Program in NASA. It has been used to generate test suites for the analysis of ANTARES Re-Entry Guidance Algorithms. The main purpose of this software is to generate as few test-cases as possible that covers the test-space of a system as specified by a set of user requirements.", "identifier": "NPO-45921-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45921-1", + "laborHours": 0, + "name": "Testgen - a combinatorial test-suite generation tool", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45921-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6230" }, - "name": "SAR Flight Planning System", - "description": "This software is written in fortran and Perl. A set of input files define the desired image swath or flight plan, the radar constraints, flight parameters, and any ground targets that will be imaged. The image swath or flight plan may be defined by either the image swath length, heading, and center coordinate, the flight path endpoints, or the image swath endpoints. The radar contraints define such things as the max and min PRF, data window length, data window position, pulse repetition interval, data rate, duty cycle, etc. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "This software is written in fortran and Perl. A set of input files define the desired image swath or flight plan, the radar constraints, flight parameters, and any ground targets that will be imaged. The image swath or flight plan may be defined by either the image swath length, heading, and center coordinate, the flight path endpoints, or the image swath endpoints. The radar contraints define such things as the max and min PRF, data window length, data window position, pulse repetition interval, data rate, duty cycle, etc. ", + "identifier": "NPO-45877-1", + "laborHours": 0, + "name": "SAR Flight Planning System", "organization": "JPL", - "identifier": "NPO-45877-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45877-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45877-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6231" }, - "name": "Policy Process Editor for JPL Policy, Process, and Performance Based Management Tool Suite", - "description": "This software would be considered generally valuable to both manned and unmanned science gathering programs. Because policy statements can be domain independent this software can equally be applied to a vast variety of different applications. We developed a process for automating the process of executing natural language enterprise policies. To support this process, a user interface needed to be built to allow users to initialize and monitor the process. This software provides this interface and exposes the features of the process for use by management, engineers, and operators alike.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "This software would be considered generally valuable to both manned and unmanned science gathering programs. Because policy statements can be domain independent this software can equally be applied to a vast variety of different applications. We developed a process for automating the process of executing natural language enterprise policies. To support this process, a user interface needed to be built to allow users to initialize and monitor the process. This software provides this interface and exposes the features of the process for use by management, engineers, and operators alike.", "identifier": "NPO-45821-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45821-1", + "laborHours": 0, + "name": "Policy Process Editor for JPL Policy, Process, and Performance Based Management Tool Suite", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6232" - }, - "name": "Policy Base Management Natural Language Parser", - "description": "PBEM is a rules-based approach to enterprise management that can be used to automate certain management tasks. PBEM simplifies the management of a given endeavor by establishing policies to deal with situations that are likely to occur. Policies are operating rules that can be referred to as a means of maintaining order, security, consistency, or other ways of successfully furthering a goal or mission. PBEM provides a way of managing configuration of network elements, applications and processes via a set of high-level rules or business policies rather than managing individual elements. There is a need for abstraction of the capabilities of the individual elements, thus switching the control to higher level. The benefit of this approach is that it allows unique management rules (or commands) to be specified and applied to a cross-section of the GIG.", + "repositoryURL": "https://software.nasa.gov/software/NPO-45821-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6232" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "PBEM is a rules-based approach to enterprise management that can be used to automate certain management tasks. PBEM simplifies the management of a given endeavor by establishing policies to deal with situations that are likely to occur. Policies are operating rules that can be referred to as a means of maintaining order, security, consistency, or other ways of successfully furthering a goal or mission. PBEM provides a way of managing configuration of network elements, applications and processes via a set of high-level rules or business policies rather than managing individual elements. There is a need for abstraction of the capabilities of the individual elements, thus switching the control to higher level. The benefit of this approach is that it allows unique management rules (or commands) to be specified and applied to a cross-section of the GIG.", "identifier": "NPO-45816-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45816-1", + "laborHours": 0, + "name": "Policy Base Management Natural Language Parser", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45816-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6233" }, - "name": "Thrust Impulse Measurement (TIM) Filter Software", - "description": "The TIM filter is presently being used for small-force/thruster calibration during Phoenix mission flight operations, and is a key part of the orbit determination and maneuvering strategy to precisely navigate the spacecraft to the top of the \"entry corridor\" for its descent to the surface of Mars. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "The TIM filter is presently being used for small-force/thruster calibration during Phoenix mission flight operations, and is a key part of the orbit determination and maneuvering strategy to precisely navigate the spacecraft to the top of the \"entry corridor\" for its descent to the surface of Mars. ", "identifier": "NPO-45825-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45825-1", + "laborHours": 0, + "name": "Thrust Impulse Measurement (TIM) Filter Software", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6234" + "usageType": "governmentWideReuse" }, - "name": "Software for losslessly compressing one-dimensional data samples into fixed-length data packets", - "description": "The software could be used for compression of one-dimensional data sources that must be transmitted in fixed-length packets under significant complexity constraints, as might sometimes arise onboard spacecraft. The software losslessly compresses data samples from a one-dimensional source into fixed-length data packets. The software's intended application is for seismic and ultrasound data to be transmitted over a network that is subject to packet losses.", + "repositoryURL": "https://software.nasa.gov/software/NPO-45825-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6234" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "The software could be used for compression of one-dimensional data sources that must be transmitted in fixed-length packets under significant complexity constraints, as might sometimes arise onboard spacecraft. The software losslessly compresses data samples from a one-dimensional source into fixed-length data packets. The software's intended application is for seismic and ultrasound data to be transmitted over a network that is subject to packet losses.", "identifier": "NPO-45942-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45942-1", + "laborHours": 0, + "name": "Software for losslessly compressing one-dimensional data samples into fixed-length data packets", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45942-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6235" }, - "name": "GPS Detection Tsunami Scale and Genesis", - "description": "The method works as follows: an earthquake's epicenter is located using seismometer data. GPS displacement data from stations near the epicenter are then gathered to derive seafloor motions. Based upon these data, local topography data and new theoretical developments, a new \"tsunami scale\" measurement from one to 10 is generated, much like the Richter Scale used for earthquakes. The scale is then used to discriminate earthquakes capable of generating destructive tsunamis from those unlikely to do so.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "The method works as follows: an earthquake's epicenter is located using seismometer data. GPS displacement data from stations near the epicenter are then gathered to derive seafloor motions. Based upon these data, local topography data and new theoretical developments, a new \"tsunami scale\" measurement from one to 10 is generated, much like the Richter Scale used for earthquakes. The scale is then used to discriminate earthquakes capable of generating destructive tsunamis from those unlikely to do so.", "identifier": "NPO-45940-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45940-1", + "laborHours": 0, + "name": "GPS Detection Tsunami Scale and Genesis", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6236" + "usageType": "governmentWideReuse" }, - "name": "MSLICE - Science Activity Planner for MSL", - "description": "MSLICE has been tasked to fulfill a challenging set of requirements. To meet these requirements, MSLICE delivers a rich feature set which includes but is not limited to:\r\n\r\n1) Simple, intuitive, and powerful search capability. For any given mission there is a huge amount of data and associated metadata that is generated. Quickly and easily sifting through all the data to find the interesting products requires a powerful tool with an intuitive interface. MSLICE provides such an interface in much the same way that the major Internet search engines provide a tool for searching the internet.\r\n2) Visualization of the rover's traverse in a HiRISE image. This view is basically a map of the mission, and it allows scientists to easily gauge where the rover has been and where they would like it to go. The map also provides the ability to correct or adjust the known position of the rover through the technique of overlaying images acquired from the rover on top of the HiRISE image. A user can then correct the rover's position by collocating the visible features in the overlays with the same features in the underlying HiRISE image.\r\n3) Visualization of data products and the ability to view mosaics.", + "repositoryURL": "https://software.nasa.gov/software/NPO-45940-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6237" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "AEGSE Virtuoso Charting enables animated real time charting of telemetry streams of data from the rover. The high performance application offers real-time telemetry monitoring through animated charts. These automatically scaled charts are completely interactive and allow users to choose the variables that they want to monitor. Furthermore, these charts were designed for extremely high performance, and they can process data from streams with many variables at such high frequencies as 100Hz. ", + "identifier": "NPO-46348-1", + "laborHours": 0, + "name": "AEGSE Virtuoso Charting: Browser Based Application for Telemetry Monitoring of Robotic Assets", "organization": "JPL", - "identifier": "NPO-45908-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45908-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-7" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6237" + "usageType": "governmentWideReuse" }, - "name": "AEGSE Virtuoso Charting: Browser Based Application for Telemetry Monitoring of Robotic Assets", - "description": "AEGSE Virtuoso Charting enables animated real time charting of telemetry streams of data from the rover. The high performance application offers real-time telemetry monitoring through animated charts. These automatically scaled charts are completely interactive and allow users to choose the variables that they want to monitor. Furthermore, these charts were designed for extremely high performance, and they can process data from streams with many variables at such high frequencies as 100Hz. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-46348-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6236" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-7" + }, + "description": "MSLICE has been tasked to fulfill a challenging set of requirements. To meet these requirements, MSLICE delivers a rich feature set which includes but is not limited to:\r\n\r\n1) Simple, intuitive, and powerful search capability. For any given mission there is a huge amount of data and associated metadata that is generated. Quickly and easily sifting through all the data to find the interesting products requires a powerful tool with an intuitive interface. MSLICE provides such an interface in much the same way that the major Internet search engines provide a tool for searching the internet.\r\n2) Visualization of the rover's traverse in a HiRISE image. This view is basically a map of the mission, and it allows scientists to easily gauge where the rover has been and where they would like it to go. The map also provides the ability to correct or adjust the known position of the rover through the technique of overlaying images acquired from the rover on top of the HiRISE image. A user can then correct the rover's position by collocating the visible features in the overlays with the same features in the underlying HiRISE image.\r\n3) Visualization of data products and the ability to view mosaics.", + "identifier": "NPO-45908-1", + "laborHours": 0, + "name": "MSLICE - Science Activity Planner for MSL", "organization": "JPL", - "identifier": "NPO-46348-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46348-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6238" + "usageType": "governmentWideReuse" }, - "name": "ISAAC: Highly-Reusable, Highly-Capable, Integrated Instrument Control and Computing Platform", - "description": "This 3-year effort will start at Technology Readiness Level (TRL) 3 with a Commercial-off-the-shelf (COTS) FPGA-based breadboard Xilinx ML410 for developing key ISAAC components, and will then be followed with custom design and fabrication of the ISAAC engineering model board by retrofitting the existing FPGA-based ESMD MicroInspector avionics board with respect to the instrument control and computing specific requirement. This effort will culminate with the system-level radiation test of complete ISAAC technology that matures it to TRL 6. Success of this effort will result in a flight-ready product in the 2010-time-frame for infusion into SMAP/HYDROS, one of Decadal flight missions.", + "repositoryURL": "https://software.nasa.gov/software/NPO-45908-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6238" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "This 3-year effort will start at Technology Readiness Level (TRL) 3 with a Commercial-off-the-shelf (COTS) FPGA-based breadboard Xilinx ML410 for developing key ISAAC components, and will then be followed with custom design and fabrication of the ISAAC engineering model board by retrofitting the existing FPGA-based ESMD MicroInspector avionics board with respect to the instrument control and computing specific requirement. This effort will culminate with the system-level radiation test of complete ISAAC technology that matures it to TRL 6. Success of this effort will result in a flight-ready product in the 2010-time-frame for infusion into SMAP/HYDROS, one of Decadal flight missions.", "identifier": "NPO-46031-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46031-1", + "laborHours": 0, + "name": "ISAAC: Highly-Reusable, Highly-Capable, Integrated Instrument Control and Computing Platform", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6239" + } + ], + "usageType": "governmentWideReuse" }, - "name": "OnMars, Web Map Service Server for Martian Raster Data", - "description": "This server is a significant contributor to NASA Mars exploration activities by providing mapping support, as well as data access for a variety of users. The OnMars server is online at http://OnMars.jpl.nasa.gov/, where the available datasets and the WMS service are described and can be interactively browsed.", + "repositoryURL": "https://software.nasa.gov/software/NPO-46031-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Data and Image Processing" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6239" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "This server is a significant contributor to NASA Mars exploration activities by providing mapping support, as well as data access for a variety of users. The OnMars server is online at http://OnMars.jpl.nasa.gov/, where the available datasets and the WMS service are described and can be interactively browsed.", "identifier": "NPO-45959-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45959-1", + "laborHours": 0, + "name": "OnMars, Web Map Service Server for Martian Raster Data", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb623a" + "usageType": "governmentWideReuse" }, - "name": "OnMoon, Lunar Web Map Service Server", - "description": "This server can be a significant contributor to NASA Lunar exploration activities by providing mapping support, as well as data access for a variety of users. The OnMoon server is online at http://onmoon.jpl.nasa.gov/, where the datasets and the WMS service are described and can be interactively browsed.", + "repositoryURL": "https://software.nasa.gov/software/NPO-45959-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb623a" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "This server can be a significant contributor to NASA Lunar exploration activities by providing mapping support, as well as data access for a variety of users. 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The technology used to build this mosaic can be used for other data sources. Together with the OnMars WMS server, this type of global composites available on-line can be used for data mining applications, for example change detection. The MOC-NA Mosaic is one of the highest resolution Mars image. The software application used to build this mosaic generates a very high resolution, very sparse image composite by reprojecting and blending one souce image at a time into the output dataset. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-45951-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb623b" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "The MOC-NA mosaic provides one of the highest-resolution view of Mars. 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", "identifier": "NPO-45960-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45960-1", + "laborHours": 0, + "name": "OnMars MOC-NA, a composite of the Mars Observer Camera Narrow Angle image collection", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb623c" + "usageType": "governmentWideReuse" }, - "name": "Automatic Sequence Generation (AutoGen), Version 5.0", - "description": "Autogen is used for operations of MRO, MER, Mars Odyssey, and Phoenix, and was used on MGS. Through the use of Autogen for base sequence generation of these missions,operations cost have been significantly reduceds through the reduction in labor/timeand risk involved in the sequence generations process. It is widely recognized that a significant portion of the uplink command products fordeep space and interplanetary missions follow regular patterns.", + "repositoryURL": "https://software.nasa.gov/software/NPO-45960-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb623c" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "Autogen is used for operations of MRO, MER, Mars Odyssey, and Phoenix, and was used on MGS. Through the use of Autogen for base sequence generation of these missions,operations cost have been significantly reduceds through the reduction in labor/timeand risk involved in the sequence generations process. It is widely recognized that a significant portion of the uplink command products fordeep space and interplanetary missions follow regular patterns.", "identifier": "NPO-45984-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45984-1", + "laborHours": 0, + "name": "Automatic Sequence Generation (AutoGen), Version 5.0", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb623d" + "usageType": "governmentWideReuse" }, - "name": "Ground Resource Allocation Planning Environment (GRAPE 1.0)", - "description": "DSN antennas are used to track most of NASA and foreign partners deep space missions. Efficient team collaboration in the DSN utilization planning phase ensures the efficient use of the antennas, thus reducing the cost of DSN operations. Team collaboration during planning is also expected to reduce space flight mission costs by reducing the overhead associated with the DSN resource allocation process and by lowering antenna negotiation time and schedule rework required. GRAPE provides a team collaboration environment where all documents, team knowledge, and applications come to a single access point.", + "repositoryURL": "https://software.nasa.gov/software/NPO-45984-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb623d" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "DSN antennas are used to track most of NASA and foreign partners deep space missions. Efficient team collaboration in the DSN utilization planning phase ensures the efficient use of the antennas, thus reducing the cost of DSN operations. Team collaboration during planning is also expected to reduce space flight mission costs by reducing the overhead associated with the DSN resource allocation process and by lowering antenna negotiation time and schedule rework required. GRAPE provides a team collaboration environment where all documents, team knowledge, and applications come to a single access point.", "identifier": "NPO-45988-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45988-1", + "laborHours": 0, + "name": "Ground Resource Allocation Planning Environment (GRAPE 1.0)", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45988-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb623e" }, - "name": "Sulcata: Terminal Descent Sensor Simulation", - "description": "Used in the development of Mars Science Laboratory. TDS, which provides critical data to GNC needed for safe landing on Mars Simulates the response of the MSL radar during descent. Sulcata is a high-fidelity simulation of the MSL TDS (radar). It is used for performance evaluation, anomaly resolution, and design validation.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "Used in the development of Mars Science Laboratory. TDS, which provides critical data to GNC needed for safe landing on Mars Simulates the response of the MSL radar during descent. Sulcata is a high-fidelity simulation of the MSL TDS (radar). It is used for performance evaluation, anomaly resolution, and design validation.", "identifier": "NPO-46161-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46161-1", + "laborHours": 0, + "name": "Sulcata: Terminal Descent Sensor Simulation", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46161-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb623f" }, - "name": "xvd Image Display Program", - "description": "xvd, short for \"X-windows VICAR Display\", is an image display program for VICAR and PDS images. It is designed to efficiently display large (multiple GB) images, and includes several basic image processing functions. It has been the de-facto standard image display program used within the NASA JPL Multimission Image Processing Lab (MIPL) since 1995. It runs on Unix systems (Solaris, Linux, Mac OS X) that have X-windows, and works well over remote X-window connections. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "xvd, short for \"X-windows VICAR Display\", is an image display program for VICAR and PDS images. It is designed to efficiently display large (multiple GB) images, and includes several basic image processing functions. It has been the de-facto standard image display program used within the NASA JPL Multimission Image Processing Lab (MIPL) since 1995. It runs on Unix systems (Solaris, Linux, Mac OS X) that have X-windows, and works well over remote X-window connections. ", "identifier": "NPO-46412-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46412-1", + "laborHours": 0, + "name": "xvd Image Display Program", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46412-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6240" }, - "name": "Rapid: Collaborative Commanding and Monitoring of Lunar Assets", - "description": "This technology provides a framework to address the specific challenges for time-delayed operations, and geographically distributed collaborative monitoring and control. It enables you to build an effective architecture for integrating a heterogeneous collection of robotic assets into a common work.The goal is to allow operators from any NASA center to control any NASA lunar asset, regardless of location. This means that an operator may control the JPL ATHLETE robot locally (at JPL) or remotely (i.e. Johnson Space Center or remote field trial).", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "This technology provides a framework to address the specific challenges for time-delayed operations, and geographically distributed collaborative monitoring and control. It enables you to build an effective architecture for integrating a heterogeneous collection of robotic assets into a common work.The goal is to allow operators from any NASA center to control any NASA lunar asset, regardless of location. This means that an operator may control the JPL ATHLETE robot locally (at JPL) or remotely (i.e. Johnson Space Center or remote field trial).", "identifier": "NPO-46332-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46332-1", + "laborHours": 0, + "name": "Rapid: Collaborative Commanding and Monitoring of Lunar Assets", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46332-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6241" }, - "name": "Airborne Radar Interferometric Repeat Pass Processing", - "description": "This code is integral to generating products for the currently active UAVSAR sensor/program. Repeat pass radar interferometry is integral to current geophysical research as it provides the only technique possible of obtaining highly accurate (millimeter level) and spatially dense surface deformation measurements. This technique is integral to the planned DESDynI mission that will employ L-band repeat pass radar interferometry to make surface deformation measurements over all the tectonically active regions of the earth surface. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "This code is integral to generating products for the currently active UAVSAR sensor/program. Repeat pass radar interferometry is integral to current geophysical research as it provides the only technique possible of obtaining highly accurate (millimeter level) and spatially dense surface deformation measurements. This technique is integral to the planned DESDynI mission that will employ L-band repeat pass radar interferometry to make surface deformation measurements over all the tectonically active regions of the earth surface. ", "identifier": "NPO-46093-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46093-1", + "laborHours": 0, + "name": "Airborne Radar Interferometric Repeat Pass Processing", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46093-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6242" }, - "name": "Source Lines Counter (SLiC) version 4.0", - "description": "SLiC has been used in a variety of projects and missions at JPL, with over 75 active users at JPL alone. It is the official code counter endorsed by the Software Quality Improvement Project for its metrics collections effort across JPL and SQIs most requested software product. SLiC provides data for cost models used during all major JPL pre-Phase A software estimation activities as well as cost validation activities throughout project lifecycles. SLiC is used to gather metrics for the JPL State of Software report to measure process trends in flight projects and multimission ground system services. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "SLiC has been used in a variety of projects and missions at JPL, with over 75 active users at JPL alone. It is the official code counter endorsed by the Software Quality Improvement Project for its metrics collections effort across JPL and SQIs most requested software product. SLiC provides data for cost models used during all major JPL pre-Phase A software estimation activities as well as cost validation activities throughout project lifecycles. SLiC is used to gather metrics for the JPL State of Software report to measure process trends in flight projects and multimission ground system services. ", "identifier": "NPO-45962-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-45962-1", + "laborHours": 0, + "name": "Source Lines Counter (SLiC) version 4.0", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-45962-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6243" }, - "name": "Adaptation of the AMDIS Method to Flight Status on the VCAM Instrument for ISS Installation in an Autonomous Manner", - "description": "This software will function onboard the ISS to help safe-guard human health by detecting noxious compounds in the air, both in identity and concentration. The stand-alone VCAM instrument was designed to provide an automated method of monitoring air quality within the ISS via a miniaturized mass spectrometer and gas chromatograph system.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Autonomous Systems" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "This software will function onboard the ISS to help safe-guard human health by detecting noxious compounds in the air, both in identity and concentration. The stand-alone VCAM instrument was designed to provide an automated method of monitoring air quality within the ISS via a miniaturized mass spectrometer and gas chromatograph system.", "identifier": "NPO-46563", - "repositoryURL": "https://software.nasa.gov/software/NPO-46563", + "laborHours": 0, + "name": "Adaptation of the AMDIS Method to Flight Status on the VCAM Instrument for ISS Installation in an Autonomous Manner", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46563", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6244" }, - "name": "Centralized alert processing and asset planning for sensorwebs", - "description": "This NASA Earth Science Sensorweb has been in operational use since 2003 and has proven reliability of the sensorweb technologies for robust event detection and autonomous response using space and ground assets.While the NRO DII demonstration highlights the maturity of sensorweb technologies, our work with NRO highlights a number of areas for further work to move forward in infusing sensorweb technologies into NRO operational usage. In the event detection area, additional work in: Timeseries Situational Awareness, Wide area and local surveillance, and Change detection and focus of attention would further enhance the utility of sensorweb technologies to the NRO. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "This NASA Earth Science Sensorweb has been in operational use since 2003 and has proven reliability of the sensorweb technologies for robust event detection and autonomous response using space and ground assets.While the NRO DII demonstration highlights the maturity of sensorweb technologies, our work with NRO highlights a number of areas for further work to move forward in infusing sensorweb technologies into NRO operational usage. In the event detection area, additional work in: Timeseries Situational Awareness, Wide area and local surveillance, and Change detection and focus of attention would further enhance the utility of sensorweb technologies to the NRO. ", "identifier": "NPO-46468-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46468-1", + "laborHours": 0, + "name": "Centralized alert processing and asset planning for sensorwebs", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46468-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6245" }, - "name": "A Generic, Extensible, Configurable Push Pull Framework for Large Scale Science Missions", - "description": "The CAS Crawling framework supports many of the Nutch crawler's generic services, including metadata extraction, crawling, and ingestion, however, one service that was not ported over from Nutch is a generic protocol layer service that allows the Nutch crawler to obtain content using protocol plug-ins that download content using implementations of remote protocols such as HTTP, FTP, WinNT file system, HTTPS, etc. Such a generic protocol layer would greatly aid the CAS Crawling Framework, as the layer would allow the crawling framework to generically obtain content (i.e., data products) from remote sites using protocols such as FTP, and others. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-12" + }, + "description": "The CAS Crawling framework supports many of the Nutch crawler's generic services, including metadata extraction, crawling, and ingestion, however, one service that was not ported over from Nutch is a generic protocol layer service that allows the Nutch crawler to obtain content using protocol plug-ins that download content using implementations of remote protocols such as HTTP, FTP, WinNT file system, HTTPS, etc. Such a generic protocol layer would greatly aid the CAS Crawling Framework, as the layer would allow the crawling framework to generically obtain content (i.e., data products) from remote sites using protocols such as FTP, and others. ", "identifier": "NPO-46185-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46185-1", + "laborHours": 0, + "name": "A Generic, Extensible, Configurable Push Pull Framework for Large Scale Science Missions", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-12" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46185-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6246" }, - "name": "Dynamic Hurricane Data Analysis Tool for the JPL Tropical Cyclone Information System (TCIS)", - "description": "This software is a prototype of a comprehensive hurricane information system of high-resolution satellite, airborne and in-situ observationsand model outputs pertaining to: i) the thermodynamic and microphysical structure ofthe storms; ii) the air-sea interaction processes; iii) the larger-scale environmentas depicted by the SST, ocean heat content and the aerosol loading of the environment. Our goal was to create a one-stop place that will provide to the researchers an extensive set of observed hurricane parameters (both graphics and data) together with large-scale and convection-resolving model output, all organized in an easy way to determine when coincident observations from multiple instruments are available. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "This software is a prototype of a comprehensive hurricane information system of high-resolution satellite, airborne and in-situ observationsand model outputs pertaining to: i) the thermodynamic and microphysical structure ofthe storms; ii) the air-sea interaction processes; iii) the larger-scale environmentas depicted by the SST, ocean heat content and the aerosol loading of the environment. Our goal was to create a one-stop place that will provide to the researchers an extensive set of observed hurricane parameters (both graphics and data) together with large-scale and convection-resolving model output, all organized in an easy way to determine when coincident observations from multiple instruments are available. ", "identifier": "NPO-46417-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46417-1", + "laborHours": 0, + "name": "Dynamic Hurricane Data Analysis Tool for the JPL Tropical Cyclone Information System (TCIS)", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6247" + "usageType": "governmentWideReuse" }, - "name": "Cliffbot Maestro", - "description": "The Maestro application is a rover operations application that uses the data products from Orchestrator to give an operator context in which to command Cliffbot. The application user interface provides two sets of tools for operations: stereo image browsing and command generation. The stereo image browsing features let the operator see stereo images acquired from the Cliffbot cameras in 2D and 3D views to analyze the appearance and shape of the terrain in the vicinity of the rover. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-46417-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6247" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "The Maestro application is a rover operations application that uses the data products from Orchestrator to give an operator context in which to command Cliffbot. The application user interface provides two sets of tools for operations: stereo image browsing and command generation. The stereo image browsing features let the operator see stereo images acquired from the Cliffbot cameras in 2D and 3D views to analyze the appearance and shape of the terrain in the vicinity of the rover. ", "identifier": "NPO-46433-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46433-1", + "laborHours": 0, + "name": "Cliffbot Maestro", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6248" + "usageType": "governmentWideReuse" }, - "name": "XML Translator for Interface Descriptions", - "description": "This software addresses the inconsistency in the interface implementation between FPGAs and software commonly results in difficult to test, identify, and fix failures in NASA Space flight systems. The tool forces functionally identical interface implementations on both sides of the interface. The XML Parser is a program that produces header files in C, Verilog, and VHDL that describe an FPGA interface. These header files are created from an XML file describing the interface, and they define constants that allow a programmer to use each register and to access each individual field in the register. The XML Parser is run as part of the make process, which ensures that whenever an interface is changed, all of the code that uses the header files describing it is recompiled.", + "repositoryURL": "https://software.nasa.gov/software/NPO-46433-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6248" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "This software addresses the inconsistency in the interface implementation between FPGAs and software commonly results in difficult to test, identify, and fix failures in NASA Space flight systems. The tool forces functionally identical interface implementations on both sides of the interface. The XML Parser is a program that produces header files in C, Verilog, and VHDL that describe an FPGA interface. These header files are created from an XML file describing the interface, and they define constants that allow a programmer to use each register and to access each individual field in the register. The XML Parser is run as part of the make process, which ensures that whenever an interface is changed, all of the code that uses the header files describing it is recompiled.", "identifier": "NPO-46447-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46447-1", + "laborHours": 0, + "name": "XML Translator for Interface Descriptions", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6249" + "usageType": "governmentWideReuse" }, - "name": "MRO Relay SASF/PTF Generation Software", - "description": "This tool will continue to be used by the MRO project to support all relay activities with all NASA and non-NASA assets on the surface of Mars. At the time of writing, this includes Phoenix and the Mars Exploration Rovers; and will likely include Mars Surface Laboratory (2009) and the European ExoMars (expected 2013). This software utilizes an input file provided by the lander team, along with a managed configuration file, to run MRO's MTT software (described elsewhere) recursively to construct the Relay PTF. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-46447-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb624a" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", - "identifier": "NPO-46512-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46512-1", - "permissions": { - "licenses": [ - { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2016-10-13" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb624a" }, + "description": "The code has specifically been developed with the aim of providing a predictive capability to NASA science missions using Hall thrusters. The code has been developed to allow designers to predict the life of a given thruster design based on the actual mission profile. HPHall is an axisymmetric (3-dimensional excavation which is rotationally symmetric about an axis) solver that employs a hybrid fluid/particle-in-cell (hybrid-PIC) numerical approach to simulate the evolution of the plasma inside the discharge chamber and near-field plume of a Hall thruster. ", + "identifier": "NPO-46513-1", + "laborHours": 0, "name": "Hybrid-PIC computer simulation of the plasma and erosion processes in Hall thrusters", - "description": "The code has specifically been developed with the aim of providing a predictive capability to NASA science missions using Hall thrusters. The code has been developed to allow designers to predict the life of a given thruster design based on the actual mission profile. HPHall is an axisymmetric (3-dimensional excavation which is rotationally symmetric about an axis) solver that employs a hybrid fluid/particle-in-cell (hybrid-PIC) numerical approach to simulate the evolution of the plasma inside the discharge chamber and near-field plume of a Hall thruster. ", + "organization": "JPL", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/NPO-46513-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6249" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "This tool will continue to be used by the MRO project to support all relay activities with all NASA and non-NASA assets on the surface of Mars. At the time of writing, this includes Phoenix and the Mars Exploration Rovers; and will likely include Mars Surface Laboratory (2009) and the European ExoMars (expected 2013). This software utilizes an input file provided by the lander team, along with a managed configuration file, to run MRO's MTT software (described elsewhere) recursively to construct the Relay PTF. ", + "identifier": "NPO-46512-1", + "laborHours": 0, + "name": "MRO Relay SASF/PTF Generation Software", "organization": "JPL", - "identifier": "NPO-46513-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46513-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb624b" + "usageType": "governmentWideReuse" }, - "name": "Water Rotational Level Excitation and Emission Line Spectrum Modeling for MIRO", - "description": "The tool is used to determine the water molecule production rates at comet surface. Therefore, this code addresses one of NASAs research objectives: Learn how the Suns family of planets and minor bodies originated and evolved. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-46512-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb624b" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "The tool is used to determine the water molecule production rates at comet surface. Therefore, this code addresses one of NASAs research objectives: Learn how the Suns family of planets and minor bodies originated and evolved. ", "identifier": "NPO-46508-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46508-1", + "laborHours": 0, + "name": "Water Rotational Level Excitation and Emission Line Spectrum Modeling for MIRO", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb624c" + "usageType": "governmentWideReuse" }, - "name": "Comet Gas and Dust Dynamics Modeling for MIRO", - "description": "This tool is used to perform the scientific analysis of the MIRO measurements and to study the evolution of the comet coma. The scientific analysis contributes to one of NASAs research objectives: Learn how the Suns family of planets and minor bodies originated and evolved. A lightweight, un-cooled dual-frequency heterodyne radiometer has been developed for the European Space Agency (ESA) Rosetta mission to Comet 67P/Churyumov-Gerasimenko, with encounters at Earth, Mars, and two asteroid (2867) Steins and (21) Lutetia. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-46508-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb624c" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "This tool is used to perform the scientific analysis of the MIRO measurements and to study the evolution of the comet coma. The scientific analysis contributes to one of NASAs research objectives: Learn how the Suns family of planets and minor bodies originated and evolved. A lightweight, un-cooled dual-frequency heterodyne radiometer has been developed for the European Space Agency (ESA) Rosetta mission to Comet 67P/Churyumov-Gerasimenko, with encounters at Earth, Mars, and two asteroid (2867) Steins and (21) Lutetia. ", "identifier": "NPO-46507-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46507-1", + "laborHours": 0, + "name": "Comet Gas and Dust Dynamics Modeling for MIRO", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46507-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb624d" }, - "name": "Spatial Query for Planetary Data", - "description": "This software implements the R+ tree approach for searching databases. Conventional databases of planetary datasets are indexed and searchable by various metadata such as acquisition time, phase of mission, and target. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "This software implements the R+ tree approach for searching databases. Conventional databases of planetary datasets are indexed and searchable by various metadata such as acquisition time, phase of mission, and target. ", "identifier": "NPO-46637-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46637-1", + "laborHours": 0, + "name": "Spatial Query for Planetary Data", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46637-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb624e" }, - "name": "Momentum Management for Low Thrust Missions", - "description": "MomProf was developed to operate in the MATLAB environment providing an easy user interface. All data is loaded into MATLAB as a structure to provide easy, consistent access to all inputs by individual functions within the tool. A configuration file provides infrequently changed parameters such as RWA inertia, S/C inertia, and the rotation matrix defining the alignment of the each RWA in the Body frame. The tab delimited input file contains time, attitude, s/c rate, and mode information. Used in its most basic application, the Dawn momentum tool uses the basic principle of angular momentum computing momentum in the body frame, and RWA wheel speeds, for all given orientations in the input file. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Propulsion" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "MomProf was developed to operate in the MATLAB environment providing an easy user interface. All data is loaded into MATLAB as a structure to provide easy, consistent access to all inputs by individual functions within the tool. A configuration file provides infrequently changed parameters such as RWA inertia, S/C inertia, and the rotation matrix defining the alignment of the each RWA in the Body frame. The tab delimited input file contains time, attitude, s/c rate, and mode information. Used in its most basic application, the Dawn momentum tool uses the basic principle of angular momentum computing momentum in the body frame, and RWA wheel speeds, for all given orientations in the input file. ", "identifier": "NPO-46435-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46435-1", + "laborHours": 0, + "name": "Momentum Management for Low Thrust Missions", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46435-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Propulsion" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb624f" }, - "name": "XMbodyinfo", - "description": "The software is very useful for streamlining the spacecraft tour design process.This software has already been successfully used on Cassini. It can also be used rather easily for other Cassini type missions such as the upcoming Europa mission. On Cassini many of hours were saved in the evaluation of the extended mission and extended-extended mission tours. The science optimization and overall science return increase as result of this software was tremendous but cannot be estimated precisely. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "The software is very useful for streamlining the spacecraft tour design process.This software has already been successfully used on Cassini. It can also be used rather easily for other Cassini type missions such as the upcoming Europa mission. On Cassini many of hours were saved in the evaluation of the extended mission and extended-extended mission tours. The science optimization and overall science return increase as result of this software was tremendous but cannot be estimated precisely. ", "identifier": "NPO-46482-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46482-1", + "laborHours": 0, + "name": "XMbodyinfo", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46482-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6250" }, - "name": "Multi-Stage GOC/Neural Network System for Automatic Target Recognition", - "description": "A multi-stage automated target recognition (ATR) system has been designed to perform computer vision tasks with adequate proficiency in mimicking human vision. The system is able to detect, identify, and track targets of interest. A feed forward back propagation neural network (NN) is then trained to classify each feature vector and remove false positives. The system parameter optimizations process has been developed to adapt to various targets and datasets.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "A multi-stage automated target recognition (ATR) system has been designed to perform computer vision tasks with adequate proficiency in mimicking human vision. The system is able to detect, identify, and track targets of interest. A feed forward back propagation neural network (NN) is then trained to classify each feature vector and remove false positives. The system parameter optimizations process has been developed to adapt to various targets and datasets.", "identifier": "NPO-47012-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47012-1", + "laborHours": 0, + "name": "Multi-Stage GOC/Neural Network System for Automatic Target Recognition", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47012-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6251" }, - "name": "Using World Wide Web Metaphors for Search Mission Data", - "description": "The search interface in the MSLICE program works via a ReST-based URL for any query that the user constructs. In other words, as the user adds and removes components of the search a URL is constructed to corresponds to that search. By leveraging this URL, we are able to emulate much of the functionality of a web browser within the search features of the desktop application MSLICE. Back and forward buttons allow the user to quickly and easily move through their search history, while the refresh button reloads the query to display any new data that may match the current query. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "The search interface in the MSLICE program works via a ReST-based URL for any query that the user constructs. In other words, as the user adds and removes components of the search a URL is constructed to corresponds to that search. By leveraging this URL, we are able to emulate much of the functionality of a web browser within the search features of the desktop application MSLICE. Back and forward buttons allow the user to quickly and easily move through their search history, while the refresh button reloads the query to display any new data that may match the current query. ", "identifier": "NPO-46832-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46832-1", + "laborHours": 0, + "name": "Using World Wide Web Metaphors for Search Mission Data", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6252" + "usageType": "governmentWideReuse" }, - "name": "Sparse Superpixel Unmixing for Hyperspectral Image Analysis", - "description": "The algorithm computes statistically likely combinations of constituents based on a set of possible constituent minerals whose abundances are uncertain. Our approach uses a library of source spectra from laboratory experiments or previous remote observations. A superpixel segmentation strategy improves analysis time by orders of magnitude, permitting incorporation into an interactive user session.", + "repositoryURL": "https://software.nasa.gov/software/NPO-46832-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6252" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "The algorithm computes statistically likely combinations of constituents based on a set of possible constituent minerals whose abundances are uncertain. Our approach uses a library of source spectra from laboratory experiments or previous remote observations. A superpixel segmentation strategy improves analysis time by orders of magnitude, permitting incorporation into an interactive user session.", "identifier": "NPO-47038-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47038-1", + "laborHours": 0, + "name": "Sparse Superpixel Unmixing for Hyperspectral Image Analysis", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6253" + "usageType": "governmentWideReuse" }, - "name": "FAILSAFE", - "description": "The FAILSAFE is software for health management in mission-criticalreal-time embedded systems. The project unites features of theindustry standard ARINC 653 Avionics Application Software Standard Interface. TheARINC 653 standard establishes requirements for the services providedby partitioned real-time operating systems. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47038-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6254" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "The Planetary Image Geometry (PIG) library is a multimission library used for projecting images (EDR's, or Experiment Data Records) and managing their geometry. A collection of models describe cameras and their articulation, allowing application programs such as mosaickers, terrain generators, and pointing correction tools to be written in a multimission manner, without any knowledge of parameters specific to the supported missions. ", + "identifier": "NPO-46658-1", + "laborHours": 0, + "name": "Planetary Image Geometry (PIG), 2008", "organization": "JPL", - "identifier": "NPO-46981-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46981-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6254" + "usageType": "governmentWideReuse" }, - "name": "Planetary Image Geometry (PIG), 2008", - "description": "The Planetary Image Geometry (PIG) library is a multimission library used for projecting images (EDR's, or Experiment Data Records) and managing their geometry. A collection of models describe cameras and their articulation, allowing application programs such as mosaickers, terrain generators, and pointing correction tools to be written in a multimission manner, without any knowledge of parameters specific to the supported missions. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-46658-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6253" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "The FAILSAFE is software for health management in mission-criticalreal-time embedded systems. The project unites features of theindustry standard ARINC 653 Avionics Application Software Standard Interface. TheARINC 653 standard establishes requirements for the services providedby partitioned real-time operating systems. ", + "identifier": "NPO-46981-1", + "laborHours": 0, + "name": "FAILSAFE", "organization": "JPL", - "identifier": "NPO-46658-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46658-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46981-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6255" }, - "name": "Mars terrain generation, 2008", - "description": "The XYZ images produced by this program suite are the fundamental images used to create the terrain meshes used by the Rover Planners to safely drive and conduct arm operations. They are the way that RP tools interact with the rover's environment. They are on the critical path for the daily command cycle of MER, PHX, and (soon) MSL.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "The XYZ images produced by this program suite are the fundamental images used to create the terrain meshes used by the Rover Planners to safely drive and conduct arm operations. They are the way that RP tools interact with the rover's environment. They are on the critical path for the daily command cycle of MER, PHX, and (soon) MSL.", "identifier": "NPO-46659-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46659-1", + "laborHours": 0, + "name": "Mars terrain generation, 2008", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46659-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6256" }, - "name": "In-situ pointing correction and rover micro-localization", - "description": "Due to mechanical backlash, calibration errors, and other sources, errors in camera pointing knowledge create geometric seams in image mosaics, where the individual images do not line up properly. For rover missions, motion of the rover in between frames can create additional seams. This software corrects these geometric seams as much as possible (some parallax seams are uncorrectable). This software provides one with the ability to understand in-situ mission image metadata that allows the pointing overlap to be determined in advance and the corrections automatically applied. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "Due to mechanical backlash, calibration errors, and other sources, errors in camera pointing knowledge create geometric seams in image mosaics, where the individual images do not line up properly. For rover missions, motion of the rover in between frames can create additional seams. This software corrects these geometric seams as much as possible (some parallax seams are uncorrectable). This software provides one with the ability to understand in-situ mission image metadata that allows the pointing overlap to be determined in advance and the corrections automatically applied. ", "identifier": "NPO-46696-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46696-1", + "laborHours": 0, + "name": "In-situ pointing correction and rover micro-localization", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46696-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6257" }, - "name": "Quantification of Trace Chemicals using Vehicle Cabin Atmosphere Monitor", - "description": "The Vehicle Cabin Atmosphere Monitor (VCAM) is a miniature preconcentrator/gas chromatograph/mass spectrometer (PCGC/MS) system to be used to identify and quantify trace chemicals. The immediate application is to provide a needed trace-gas monitor for the International Space Station. This software solves the problem of quantifying the concentration of trace chemicals in the International Space Station (ISS) internal air using a miniature gas-chromatograph mass-spectrometer instrument called VCAM.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Crew and Life Support" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "The Vehicle Cabin Atmosphere Monitor (VCAM) is a miniature preconcentrator/gas chromatograph/mass spectrometer (PCGC/MS) system to be used to identify and quantify trace chemicals. The immediate application is to provide a needed trace-gas monitor for the International Space Station. This software solves the problem of quantifying the concentration of trace chemicals in the International Space Station (ISS) internal air using a miniature gas-chromatograph mass-spectrometer instrument called VCAM.", "identifier": "NPO-46691-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46691-1", + "laborHours": 0, + "name": "Quantification of Trace Chemicals using Vehicle Cabin Atmosphere Monitor", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46691-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Crew and Life Support" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6258" }, - "name": "POSSUM: Product Operations Status SUmmary Metrics", - "description": "POSSUM provides a graphical presentation tracking and accountability of the existence and version of expected Reduced Data Records (RDRs) for a given Experiment Data Record (EDR) for the Phoenix lander mission. By using POSSUM, operations personnel can easily determine if any RDRs are missing for a given EDR during and after the OPGS processing pipeline. POSSUM offers a variety of sorting options, such as product file creation time and instrument. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", - "identifier": "NPO-46664-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46664-1", - "permissions": { - "licenses": [ - { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6259" - }, - "name": "Marsviewer, 2008", - "description": "This program (marsviewer) is designed for quality control, browsing, and operational and science analysis of images and derived image products returned by spacecraft, primarily in-situ missions (e.g. MER, PHX, MSL). It allows all derivd products (Reduced Data Records, or RDR's) associated with each original image (Experiment Data Record, or EDR) to be viewed in various ways, including in stereo, depending on the type of image.The program features a pluggable interface called a \"file finder\". ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], - "contact": { - "email": "jpl_ott@jpl.nasa.gov" }, + "description": "POSSUM provides a graphical presentation tracking and accountability of the existence and version of expected Reduced Data Records (RDRs) for a given Experiment Data Record (EDR) for the Phoenix lander mission. By using POSSUM, operations personnel can easily determine if any RDRs are missing for a given EDR during and after the OPGS processing pipeline. POSSUM offers a variety of sorting options, such as product file creation time and instrument. ", + "identifier": "NPO-46664-1", + "laborHours": 0, + "name": "POSSUM: Product Operations Status SUmmary Metrics", "organization": "JPL", - "identifier": "NPO-46698-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46698-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb625a" + "usageType": "governmentWideReuse" }, - "name": "BGen: A UML Behavior Network Generator Tool", - "description": "A computer program to translate Unified Modeling Language (UML) Free-form Implementation Diagrams into a legacy C implementation of a Behavior Network has been developed in order to simplify the development of C-code for behavior based control systems. UML is a popular standard developed by the Object Management Group (OMG) to model software architectures graphically. The C implementation of a Behavior Network is functioning as a decision tree. Simplfying the process of behavior-based control code generation. The autocoding approach used in this work is derived from that previously applied to NASA missions such as the Mars Science Laboratory.", + "repositoryURL": "https://software.nasa.gov/software/NPO-46664-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6259" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "This program (marsviewer) is designed for quality control, browsing, and operational and science analysis of images and derived image products returned by spacecraft, primarily in-situ missions (e.g. MER, PHX, MSL). It allows all derivd products (Reduced Data Records, or RDR's) associated with each original image (Experiment Data Record, or EDR) to be viewed in various ways, including in stereo, depending on the type of image.The program features a pluggable interface called a \"file finder\". ", + "identifier": "NPO-46698-1", + "laborHours": 0, + "name": "Marsviewer, 2008", "organization": "JPL", - "identifier": "NPO-46787-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46787-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb625b" + "usageType": "governmentWideReuse" }, - "name": "Support for Systematic Code Reviews with the SCRUB tool", - "description": "SCRUB is a code review tool that supports both large team-based software development efforts (e.g., for mission software) and individual programming tasks. The tool was developed at JPL to support a new streamlined code review process that combines human generated review reports with program-generated analyses reports from a customizable range of state-of-the-art source code analyzers. All reports are accessed through a single uniform interface that facilitates browsing code and reports. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-46698-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb625a" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "A computer program to translate Unified Modeling Language (UML) Free-form Implementation Diagrams into a legacy C implementation of a Behavior Network has been developed in order to simplify the development of C-code for behavior based control systems. UML is a popular standard developed by the Object Management Group (OMG) to model software architectures graphically. The C implementation of a Behavior Network is functioning as a decision tree. Simplfying the process of behavior-based control code generation. The autocoding approach used in this work is derived from that previously applied to NASA missions such as the Mars Science Laboratory.", + "identifier": "NPO-46787-1", + "laborHours": 0, + "name": "BGen: A UML Behavior Network Generator Tool", "organization": "JPL", - "identifier": "NPO-46817-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46817-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb625c" + "usageType": "governmentWideReuse" }, - "name": "Social Tagging of Mission Data", - "description": "Mars missions will generate a large amount of data in various forms, such as daily plans, images, and other science information returned. There is often times a semantic linking between pieces of data that cannot be captured automatically, i.e. images containing rocks. This software provides a method for creating arbitrary tags for mission data; two items with the same tag are related to each other, and can be searched (or recalled) through the tag. The tags are shared by all users, meaning that one user may tag data for the benefit, or to gain the attention, of another user. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-46787-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb625b" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "SCRUB is a code review tool that supports both large team-based software development efforts (e.g., for mission software) and individual programming tasks. The tool was developed at JPL to support a new streamlined code review process that combines human generated review reports with program-generated analyses reports from a customizable range of state-of-the-art source code analyzers. All reports are accessed through a single uniform interface that facilitates browsing code and reports. 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", + "repositoryURL": "https://software.nasa.gov/software/NPO-46817-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb625d" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "This technology is aimed at helping NASA people conduct modeling activities in the areas of Function Fault Analysis and Ground-based System Diagnostics for the Ares project. The reporting features of the tool allow the modelers to quickly gather statistics about the model and generate an input/output report pertaining to all of the components. The model checking framework allows for rules to be automatically validated against the model and reporting a list of the resulting inconsistencies. 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The more frequent update of system diagrams can reduce confusion and reduce errors and is likely to uncover symmetric problems earlier in the design cycle, thus reducing rework and redesign.", + "identifier": "NPO-46926-1", + "laborHours": 0, + "name": "Auto Draw From Excel Input Files", "organization": "JPL", - "identifier": "NPO-46895-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46895-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6269" + "usageType": "governmentWideReuse" }, - "name": "NAIF Toolkit - Extended", - "description": "The Navigation Ancillary Information Facility (NAIF) at Caltech's JPL,acting under the directions of NASA's Office of Space Science, has built a datasystem, named SPICE, to assist scientists in planning and interpreting scientificobservations. SPICE provides geometric and some other ancillary information neededto recover the full value of science instrument data, including correlation ofindividual instrument data sets with data from other instruments on the same or otherspacecraft. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-46926-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb626a" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "The X-Band Acquisition Aid (AAP) software is a low-cost acquisition aid for the Deep Space Network (DSN) antennas and is used while acquiring a spacecraft shortly after it has launched. The DSN consists of three complexes located at Goldstone, CA; Madrid, Spain; and Canberra, Australia. Each complex has from three to six antennas. ", + "identifier": "NPO-47004-1", + "laborHours": 0, + "name": "X-Band Acquisition Aid Software", "organization": "JPL", - "identifier": "NPO-47017-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47017-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb626a" + "usageType": "governmentWideReuse" }, - "name": "X-Band Acquisition Aid Software", - "description": "The X-Band Acquisition Aid (AAP) software is a low-cost acquisition aid for the Deep Space Network (DSN) antennas and is used while acquiring a spacecraft shortly after it has launched. The DSN consists of three complexes located at Goldstone, CA; Madrid, Spain; and Canberra, Australia. Each complex has from three to six antennas. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47004-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6269" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "The Navigation Ancillary Information Facility (NAIF) at Caltech's JPL,acting under the directions of NASA's Office of Space Science, has built a datasystem, named SPICE, to assist scientists in planning and interpreting scientificobservations. SPICE provides geometric and some other ancillary information neededto recover the full value of science instrument data, including correlation ofindividual instrument data sets with data from other instruments on the same or otherspacecraft. ", + "identifier": "NPO-47017-1", + "laborHours": 0, + "name": "NAIF Toolkit - Extended", "organization": "JPL", - "identifier": "NPO-47004-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47004-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/NPO-47017-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb626d" + }, + "contact": { + "email": "jpl_ott@jpl.nasa.gov" }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb626b" }, - "name": "MIRO Continuum Calibration for Asteroid Mode", - "description": "This software is used to calibrate Microwave Instruments. 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It then uses correlation techniques to find matching points in the overlapped image. Finally, it performs a series of steps to reduce the number of tiepoints to a manageable level. ", + "identifier": "NPO-47083-1", + "laborHours": 0, + "name": "Automatic Tiepointer for In-Situ Pointing Correction", + "organization": "JPL", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/NPO-47083-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb626c" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "This software provides an off-the-shelf approach to high-performance engineering computing that finds numerous applications in NASA aeronautical and space mission analysis and simulations. A C software module has been developed that creates light weight processes (LWP) dynamically to achieve parallel computing performance in a variety of engineering simulation and analysis applications. ", + "identifier": "NPO-46892-1", + "laborHours": 0, + "name": "Efficient Parallel Engineering Computing on Linux Workstations", "organization": "JPL", - "identifier": "NPO-47075-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47075-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb626c" + "usageType": "governmentWideReuse" }, - "name": "Efficient Parallel Engineering Computing on Linux Workstations", - "description": "This software provides an off-the-shelf approach to high-performance engineering computing that finds numerous applications in NASA aeronautical and space mission analysis and simulations. A C software module has been developed that creates light weight processes (LWP) dynamically to achieve parallel computing performance in a variety of engineering simulation and analysis applications. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-46892-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb626b" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "This software is used to calibrate Microwave Instruments. The software determines the relationship between the raw digital unit measured by MIRO and the equivalent brightness temperature by analyzing data from calibration frames. The found relationship is applied to non-calibration frames which are the measurements of an object of interest such as asteroids and other planetary objects that MIRO encounters during its operation. This software characterizes the gain fluctuations statistically and determines which method to estimate gain between calibration frames. ", + "identifier": "NPO-47075-1", + "laborHours": 0, + "name": "MIRO Continuum Calibration for Asteroid Mode", "organization": "JPL", - "identifier": "NPO-46892-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46892-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb626d" + "usageType": "governmentWideReuse" }, - "name": "Automatic Tiepointer for In-Situ Pointing Correction", - "description": "The marsautotie program generates tiepoints for use with the Mars pointing correction software in a completely automated manner, with no operator intervention. It takes input images and finds overlaps according to the nominal pointing. It then finds the most \"interesting\" areas using a scene activity metric. Those points with most scene activity are most likely to be useful for tiepointing a mosaic. It then uses correlation techniques to find matching points in the overlapped image. Finally, it performs a series of steps to reduce the number of tiepoints to a manageable level. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47075-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb626e" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "This supports the scientific utilization of TES data products in support of the NASA AURA mission. A file name is provided, and the contents are returned as simple IDL variables. Returns data fields as simple arrays for a given file. Extracts data from publicly available Tropospheric Emission Spectrometer (TES) HDF product data files using publicly available format specifications for scientific analysis in IDL.", + "identifier": "NPO-47000-1", + "laborHours": 0, + "name": "TES Product File readers", "organization": "JPL", - "identifier": "NPO-47083-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47083-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb626e" + "usageType": "governmentWideReuse" }, - "name": "TES Product File readers", - "description": "This supports the scientific utilization of TES data products in support of the NASA AURA mission. A file name is provided, and the contents are returned as simple IDL variables. Returns data fields as simple arrays for a given file. Extracts data from publicly available Tropospheric Emission Spectrometer (TES) HDF product data files using publicly available format specifications for scientific analysis in IDL.", + "repositoryURL": "https://software.nasa.gov/software/NPO-47000-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6272" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "1-Sep-10The CCSDS Encapsulation Service in FPGA implementation consists of both packetizing and de-packetizing features. Packetizer and De-Packetizer Features", + "identifier": "NPO-47167-1", + "laborHours": 0, + "name": "High Performance CCSDS Encapsulation Service Implementation in FPGA", "organization": "JPL", - "identifier": "NPO-47000-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47000-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb626f" + "usageType": "governmentWideReuse" }, - "name": "Observing System Simulation Experiment (OSSE) for the HyspIRI Spectrometer Mission", - "description": "This software is for the optimal instrument design for Earth-observing missions that depend on the complicated interplay between atmospheric radiative transfer, surface characteristics, orbital geometry, retrieval algorithms, and science objectives. It accomplishes this by implementing an Observing System Simulation Environment (OSSE) and is used to demonstrate science return for proposed instruments by modeling the whole ground truth, sensing, and retrieval chain. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47167-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Data Servers Processing and Handling" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6273" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "The adaptation of G-TAG to an asteroid sample return mission requires developing G-TAG models for the asteroid sample return spacecraft and models describing the forces and torques applied at contact.", + "identifier": "NPO-47193-1", + "laborHours": 0, + "name": "Adaptation of GTAG Software for Validating Touch and Go Asteroid Sample Return Design Methodology", "organization": "JPL", - "identifier": "NPO-47048-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47048-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47193-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6270" }, - "name": "Propulsive Reaction Control System Model", - "description": "This RCS Model is a C language program. It contains two main functions: (1) The RCS electronics model function which models the RCS FPGA processing and commanding of the RCS valve. (2) The RCS dynamic model function, which models the valve and combustion dynamics. This functions need to be called within the simulation executive. In addition, it provides support functions to initialize the model, set parameters, access model telemetry, access calculated thruster forcers. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "This RCS Model is a C language program. It contains two main functions: (1) The RCS electronics model function which models the RCS FPGA processing and commanding of the RCS valve. (2) The RCS dynamic model function, which models the valve and combustion dynamics. This functions need to be called within the simulation executive. In addition, it provides support functions to initialize the model, set parameters, access model telemetry, access calculated thruster forcers. ", "identifier": "NPO-46978-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-46978-1", + "laborHours": 0, + "name": "Propulsive Reaction Control System Model", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-19" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6271" - }, - "name": "High Performance CCSDS AOS Protocol Implementation in FPGA", - "description": "The CCSDS AOS in FPGA implementation consists of both framing and de-framing features.\r\nAOS Framer and AOS De-Framer\r\n", + "repositoryURL": "https://software.nasa.gov/software/NPO-46978-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb626f" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "This software is for the optimal instrument design for Earth-observing missions that depend on the complicated interplay between atmospheric radiative transfer, surface characteristics, orbital geometry, retrieval algorithms, and science objectives. It accomplishes this by implementing an Observing System Simulation Environment (OSSE) and is used to demonstrate science return for proposed instruments by modeling the whole ground truth, sensing, and retrieval chain. ", + "identifier": "NPO-47048-1", + "laborHours": 0, + "name": "Observing System Simulation Experiment (OSSE) for the HyspIRI Spectrometer Mission", "organization": "JPL", - "identifier": "NPO-47166-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47166-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6272" - }, - "name": "High Performance CCSDS Encapsulation Service Implementation in FPGA", - "description": "1-Sep-10The CCSDS Encapsulation Service in FPGA implementation consists of both packetizing and de-packetizing features. Packetizer and De-Packetizer Features", + "repositoryURL": "https://software.nasa.gov/software/NPO-47048-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6271" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "The CCSDS AOS in FPGA implementation consists of both framing and de-framing features.\r\nAOS Framer and AOS De-Framer\r\n", + "identifier": "NPO-47166-1", + "laborHours": 0, + "name": "High Performance CCSDS AOS Protocol Implementation in FPGA", "organization": "JPL", - "identifier": "NPO-47167-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47167-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6273" - }, - "name": "Adaptation of GTAG Software for Validating Touch and Go Asteroid Sample Return Design Methodology", - "description": "The adaptation of G-TAG to an asteroid sample return mission requires developing G-TAG models for the asteroid sample return spacecraft and models describing the forces and torques applied at contact.", + "repositoryURL": "https://software.nasa.gov/software/NPO-47166-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Data Servers Processing and Handling" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6275" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "CFDP-ION is an implementation of CFDP that uses ION's DTN implementation as its UT layer. The Interplanetary Overlay Network (ION) communication system is an implementation of Delay-Tolerant Networking (DTN) protocols for space flight operations. It enables reliable automatic data communication over a network of arbitrarily complex topology comprising both deep-space links and more Internet-like connections. CFDP-ION includes implementations of the optional Proxy and Remote Directory Listing interoperable user operations defined in the CFDP standard. CFDP-ION utilizes the Interplanetary Communication Infrastructure (ICI) application interface offered by ION to invoke any operating system functionality that is not common to all POSIX-compliant operating systems. This enables CFDP-ION to be used without modification in VxWorks 5.4, Solaris 9, OS/X, and various Linux distributions. ", + "identifier": "NPO-47084-1", + "laborHours": 0, + "name": "CFDP-ION (CFDP for Interplanetary Overlay Network)", "organization": "JPL", - "identifier": "NPO-47193-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47193-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47084-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6274" }, - "name": "Observation Scheduling System", - "description": "Mission planning in the presence of spacecraft operations constraints such as data volume, thermal, pointing maneuver, and others. In operational use on Earth Observing One mission. This can improve the efficiency of operations of future space missions.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "Mission planning in the presence of spacecraft operations constraints such as data volume, thermal, pointing maneuver, and others. In operational use on Earth Observing One mission. This can improve the efficiency of operations of future space missions.", "identifier": "NPO-47189-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47189-1", + "laborHours": 0, + "name": "Observation Scheduling System", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6275" + "usageType": "governmentWideReuse" }, - "name": "CFDP-ION (CFDP for Interplanetary Overlay Network)", - "description": "CFDP-ION is an implementation of CFDP that uses ION's DTN implementation as its UT layer. The Interplanetary Overlay Network (ION) communication system is an implementation of Delay-Tolerant Networking (DTN) protocols for space flight operations. It enables reliable automatic data communication over a network of arbitrarily complex topology comprising both deep-space links and more Internet-like connections. CFDP-ION includes implementations of the optional Proxy and Remote Directory Listing interoperable user operations defined in the CFDP standard. CFDP-ION utilizes the Interplanetary Communication Infrastructure (ICI) application interface offered by ION to invoke any operating system functionality that is not common to all POSIX-compliant operating systems. This enables CFDP-ION to be used without modification in VxWorks 5.4, Solaris 9, OS/X, and various Linux distributions. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47189-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6268" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-19" + }, + "description": "The software provides onboard planning and execution technologies to provide robust and opportunistic mission operations for an aerobot. The planning and execution component of AerOASIS is able to generate mission operations plans that achieve science and engineering objectives while respecting mission and resource constraints as well as adapt the plan to respond to new science opportunities. Onboard planning and scheduling for an aerobot is a new capability.", + "identifier": "NPO-46895-1", + "laborHours": 0, + "name": "Planning and Execution for an Autonomous Aerobot", "organization": "JPL", - "identifier": "NPO-47084-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47084-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-46895-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6276" }, - "name": "Accelerated Adaptive MGS Phase Retrieval", - "description": "The Modified Gerchberg-Saxton (MGS) algorithm is an image-based wavefront sensing method that can turn any science instrument focal plane into a wavefront sensor. MGS has been utilized on many projects, and has been demonstrated on many optical systems, from laboratory testbeds to space telescopes. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "The Modified Gerchberg-Saxton (MGS) algorithm is an image-based wavefront sensing method that can turn any science instrument focal plane into a wavefront sensor. MGS has been utilized on many projects, and has been demonstrated on many optical systems, from laboratory testbeds to space telescopes. ", "identifier": "NPO-47101-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47101-1", + "laborHours": 0, + "name": "Accelerated Adaptive MGS Phase Retrieval", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6277" + "usageType": "governmentWideReuse" }, - "name": "Water detection based on sky reflections", - "description": "Aerial water detection is important for tracking changes in water boundaries that occur when the water elevation changes. From an aerial platform (manned or unmanned), new terrestrial water bodies could be automatically detected at far range and added to a database. Water bodies that no longer exist (such as a dried up pond) could be automatically detected and removed from a database. In addition, drastic changes in a water detection region could be detected, potentially indicating an environmental crisis such as an oil spill. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47101-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6277" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "Aerial water detection is important for tracking changes in water boundaries that occur when the water elevation changes. From an aerial platform (manned or unmanned), new terrestrial water bodies could be automatically detected at far range and added to a database. Water bodies that no longer exist (such as a dried up pond) could be automatically detected and removed from a database. In addition, drastic changes in a water detection region could be detected, potentially indicating an environmental crisis such as an oil spill. ", "identifier": "NPO-47092-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47092-1", + "laborHours": 0, + "name": "Water detection based on sky reflections", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47092-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6278" }, - "name": "Lidar Based Hazard Relative Navigation Algorithm for Safe Lunar Landing", - "description": "The purpose of HRN is to provide measurements to the Navigation Filter so that it can limit errors on the position estimate after hazards have been detected. The hazards are detected by processing a hazard digital elevation map (HDEM). The HRN process takes lidar images as the spacecraft descends to the surface and matches these to the HDEM to compute relative position measurements.\r\n\r\nThis work is directly applicable to manned lunar landing. It is also directly applicable to robotics landers on the moon, other planets and small bodies. It could be used as a sensor approach for navigation of autonomous air vehicles for military and surveillance purposes.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Autonomous Systems" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "The purpose of HRN is to provide measurements to the Navigation Filter so that it can limit errors on the position estimate after hazards have been detected. The hazards are detected by processing a hazard digital elevation map (HDEM). The HRN process takes lidar images as the spacecraft descends to the surface and matches these to the HDEM to compute relative position measurements.\r\n\r\nThis work is directly applicable to manned lunar landing. It is also directly applicable to robotics landers on the moon, other planets and small bodies. It could be used as a sensor approach for navigation of autonomous air vehicles for military and surveillance purposes.", "identifier": "NPO-47115-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47115-1", + "laborHours": 0, + "name": "Lidar Based Hazard Relative Navigation Algorithm for Safe Lunar Landing", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47115-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6279" }, - "name": "MISR INteractive eXplorer", - "description": "MISR is a NASA instrument on board an earth-orbiting satellite that provides new types of information for scientists studying Earth's climate, such as the partitioning of energy and carbon between the land surface and the atmosphere, and the regional and global impacts of different types of atmospheric particles and clouds on climate. This software allows for visualizing MISR data. MISR INteractive eXplorer functions both as a general-purpose tool to visualize MISRdata and as a specialized tool to analyze properties of smoke and volcanic plumes. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "MISR is a NASA instrument on board an earth-orbiting satellite that provides new types of information for scientists studying Earth's climate, such as the partitioning of energy and carbon between the land surface and the atmosphere, and the regional and global impacts of different types of atmospheric particles and clouds on climate. This software allows for visualizing MISR data. MISR INteractive eXplorer functions both as a general-purpose tool to visualize MISRdata and as a specialized tool to analyze properties of smoke and volcanic plumes. ", "identifier": "NPO-47098-1", - "repositoryURL": "https://github.com/nasa/MINX", + "laborHours": 0, + "name": "MISR INteractive eXplorer", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/MINX/blob/master/LICENSE.txt", "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb627a" + "usageType": "governmentWideReuse" }, - "name": "A Web-based Interface for Command and Control of Network Sensors", - "description": "This software has been developed to be generic enough to be deployed on different types of sensor networks (not just volcano monitoring) with minimal changes and time investments.Summary: Provides for the visualization and control of a network of sensors through a web browser interface. It is currently be used to monitor Mt. Saint Helan's volcano, however is generic enough that it can be deployed for any type of sensor web. ", + "repositoryURL": "https://github.com/nasa/MINX", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb627a" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "This software has been developed to be generic enough to be deployed on different types of sensor networks (not just volcano monitoring) with minimal changes and time investments.Summary: Provides for the visualization and control of a network of sensors through a web browser interface. It is currently be used to monitor Mt. Saint Helan's volcano, however is generic enough that it can be deployed for any type of sensor web. ", "identifier": "NPO-47110-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47110-1", + "laborHours": 0, + "name": "A Web-based Interface for Command and Control of Network Sensors", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb627b" + "usageType": "governmentWideReuse" }, - "name": "Single Receiver GPS Phase Bias Resolution", - "description": "It has long been the practice to fix double differenced integer phase ambiguities when processing GPS data from multiple receivers. When the double differenced combination of phase biases can be fixed reliably a significant improvement in solution accuracy is obtained. The procedure is complicated and compute intensive, due to the need for multiple receivers to form the double difference. The constraint on the integers is added to the solution as a measurement with infinite precision. This software introduces a new method. First the process, uses a large global set of GPS receivers (40-80 receivers) to solve for the GPS satellite orbits and clocks ( along with many other parameters ). ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47110-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Electronics and Electrical Power" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb627c" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "The software supports the modulations of binary phase-shift keying (BPSK), quadrature PSK (QPSK), 8-PSK, 16 amplitude PSK (16-APSK), and 32-APSK. For each modulation type, the software modulator support for various bit-to-modulation-symbol mappings, including the natural order, the Gray code, the anti-Gray code, and the ordering specified by the Digital Video Broadcast Satellite Second Generation standard for 16-APSK and 32-APSK. The software supports hard and soft demodulation, and when soft, it supports both an exact log likelihood computation and an approximate log likelihood computation based on nearest neighbors. ", + "identifier": "NPO-47171-1", + "laborHours": 0, + "name": "AR4JA LDPC Coded Modulation in C and Matlab", "organization": "JPL", - "identifier": "NPO-47149-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47149-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb627c" + "usageType": "governmentWideReuse" }, - "name": "AR4JA LDPC Coded Modulation in C and Matlab", - "description": "The software supports the modulations of binary phase-shift keying (BPSK), quadrature PSK (QPSK), 8-PSK, 16 amplitude PSK (16-APSK), and 32-APSK. For each modulation type, the software modulator support for various bit-to-modulation-symbol mappings, including the natural order, the Gray code, the anti-Gray code, and the ordering specified by the Digital Video Broadcast Satellite Second Generation standard for 16-APSK and 32-APSK. The software supports hard and soft demodulation, and when soft, it supports both an exact log likelihood computation and an approximate log likelihood computation based on nearest neighbors. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47171-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb627b" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "It has long been the practice to fix double differenced integer phase ambiguities when processing GPS data from multiple receivers. When the double differenced combination of phase biases can be fixed reliably a significant improvement in solution accuracy is obtained. The procedure is complicated and compute intensive, due to the need for multiple receivers to form the double difference. The constraint on the integers is added to the solution as a measurement with infinite precision. This software introduces a new method. First the process, uses a large global set of GPS receivers (40-80 receivers) to solve for the GPS satellite orbits and clocks ( along with many other parameters ). ", + "identifier": "NPO-47149-1", + "laborHours": 0, + "name": "Single Receiver GPS Phase Bias Resolution", "organization": "JPL", - "identifier": "NPO-47171-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47171-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47149-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Electronics and Electrical Power" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb627d" }, - "name": "Calibrate_Image", - "description": "One of the most widely used methods for collecting information about an object or phenomenon, in space or on the Earth, which is of scientific interest is to capture an image of it. Unfortunately, due to the nature of digital imaging hardware, the captured image is a degraded representation of the actual object or phenomenon of interest. This software coded in MATLAB, a widely used analysis software package, that takes as input any image of an object or phenomenon of scientific interest, along with two reference images generated by the same digital imaging hardware, applies corrections for the three most prominent sources of image degradation, and outputs a corrected image of the object or phenomenon. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "One of the most widely used methods for collecting information about an object or phenomenon, in space or on the Earth, which is of scientific interest is to capture an image of it. Unfortunately, due to the nature of digital imaging hardware, the captured image is a degraded representation of the actual object or phenomenon of interest. This software coded in MATLAB, a widely used analysis software package, that takes as input any image of an object or phenomenon of scientific interest, along with two reference images generated by the same digital imaging hardware, applies corrections for the three most prominent sources of image degradation, and outputs a corrected image of the object or phenomenon. ", "identifier": "NPO-47191-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47191-1", + "laborHours": 0, + "name": "Calibrate_Image", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb627e" - }, - "name": "Image capture to stereo correlation in an FPGA", - "description": "This software is comprised of Cameralink image acquisition, rectification, filtering and correlation. \r\nCameralink image Acquistion- we used the cameralink library provided by our board vendor, Alpha-Data. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47191-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb627e" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "This software is comprised of Cameralink image acquisition, rectification, filtering and correlation. \r\nCameralink image Acquistion- we used the cameralink library provided by our board vendor, Alpha-Data. ", "identifier": "NPO-47190-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47190-1", + "laborHours": 0, + "name": "Image capture to stereo correlation in an FPGA", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb627f" + "usageType": "governmentWideReuse" }, - "name": "Water detection based on color variation", - "description": "The primary goal of this software is to process a robust water and mud classifier for all terrain conditions, for both day and night operations. This may be important for rover operations during exploration on other planetary bodies by future NASA missions. This task also involves assessing the hazard that detected water and mud presents and accurately placing detected water and mud into the vehicle level world model that an XUV uses to plan safe paths. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47190-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb627f" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "The primary goal of this software is to process a robust water and mud classifier for all terrain conditions, for both day and night operations. This may be important for rover operations during exploration on other planetary bodies by future NASA missions. This task also involves assessing the hazard that detected water and mud presents and accurately placing detected water and mud into the vehicle level world model that an XUV uses to plan safe paths. ", "identifier": "NPO-47088-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47088-1", + "laborHours": 0, + "name": "Water detection based on color variation", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6280" + "usageType": "governmentWideReuse" }, - "name": "Encoders and Decoders for the AR4JA family of LDPC codes", - "description": "Low-Density Parity-Check (LDPC) codes are the best error correcting codes known for a wide variety of communications applications. Research at JPL over the last several years has resulted in the Accumulate, Repeat-by-4, and Jagged Accumulate (AR4JA) family of LDPC codes. Nine members of this family have been selected for standardization by the Consultative Committee for Space Data Systems (CCSDS), and are under consideration for a variety of spacecraft missions and other projects. These codes have three block lengths: 1024, 4096, and 16384 information bits; and three code rates: 1/2, 2/3, and 4/5. Encoders and decoders for these codes hav been written in the Verilog hardware description language, with exactly equivalent versions written in the C and Matlab software programming languages. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47088-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6280" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-26" + }, + "description": "Low-Density Parity-Check (LDPC) codes are the best error correcting codes known for a wide variety of communications applications. Research at JPL over the last several years has resulted in the Accumulate, Repeat-by-4, and Jagged Accumulate (AR4JA) family of LDPC codes. Nine members of this family have been selected for standardization by the Consultative Committee for Space Data Systems (CCSDS), and are under consideration for a variety of spacecraft missions and other projects. These codes have three block lengths: 1024, 4096, and 16384 information bits; and three code rates: 1/2, 2/3, and 4/5. Encoders and decoders for these codes hav been written in the Verilog hardware description language, with exactly equivalent versions written in the C and Matlab software programming languages. ", "identifier": "NPO-47162-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47162-1", + "laborHours": 0, + "name": "Encoders and Decoders for the AR4JA family of LDPC codes", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-26" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47162-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6281" }, - "name": "Morbiter", - "description": "The long-term evolution characteristics (and stability) of an orbit are best charac-terized using a mean element propagation of the perturbed two body variational equations of motion. The averaging process eliminates short period terms leaving only secular and long period effects. In this software a non-traditional approach is taken that averages the variational equations using adaptive numerical techniques and then numerically integrating the resulting EOMs. Doing this avoids the Fourier series expansions and truncations required by the traditional analytic methods. The resultant numerical techniques can be easily adapted to propagations at most solar system bodies. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "The long-term evolution characteristics (and stability) of an orbit are best charac-terized using a mean element propagation of the perturbed two body variational equations of motion. The averaging process eliminates short period terms leaving only secular and long period effects. In this software a non-traditional approach is taken that averages the variational equations using adaptive numerical techniques and then numerically integrating the resulting EOMs. Doing this avoids the Fourier series expansions and truncations required by the traditional analytic methods. The resultant numerical techniques can be easily adapted to propagations at most solar system bodies. ", "identifier": "NPO-47212-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47212-1", + "laborHours": 0, + "name": "Morbiter", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6282" + "usageType": "governmentWideReuse" }, - "name": "General Tool for Evaluating High-contrast Coronagraphic Telescope Performance Error Budgets", - "description": "This software tool uses a Code V prescription of the optical train and uses Matlab programs to call ray-trace code that generates linear beam-walk and aberration sensitivity matrices for motions of the optical elements and line-of-sight pointing, with and without controlled fine-steering mirrors (FSM). ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47212-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6282" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "This software tool uses a Code V prescription of the optical train and uses Matlab programs to call ray-trace code that generates linear beam-walk and aberration sensitivity matrices for motions of the optical elements and line-of-sight pointing, with and without controlled fine-steering mirrors (FSM). ", "identifier": "NPO-47220-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47220-1", + "laborHours": 0, + "name": "General Tool for Evaluating High-contrast Coronagraphic Telescope Performance Error Budgets", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47220-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6283" }, - "name": "Adaptation of G-TAG software for validating touch-and-go comet surface sampling design methodology", - "description": "This report describes an adaptation of the G-TAG software tool, and its use for validating a touch-and-go (TAG) surface sampling design methodology for a comet mission. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", - "identifier": "NPO-47199-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47199-1", - "permissions": { - "licenses": [ - { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2016-10-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6284" }, - "name": "Bundle Security Protocol for ION", - "description": "The Interplanetary Overlay Network (ION) communication system is an implementation of Delay-Tolerant Networking (DTN) protocols for space flight operations. It enables reliable automatic data communication over a network of arbitrarily complex topology comprising both deep-space links and more Internet-like connections. The bundle protocol is used in DTNs which overlay multiple networks, some of which may be challenged by limitations such as intermittent and possibly unpredictable loss of connectivity, long or variable delay, asymmetric data rates, and high error rates. The purpose of the bundle protocol is to support interoperability across such stressed networks.", + "description": "This report describes an adaptation of the G-TAG software tool, and its use for validating a touch-and-go (TAG) surface sampling design methodology for a comet mission. ", + "identifier": "NPO-47199-1", + "laborHours": 0, + "name": "Adaptation of G-TAG software for validating touch-and-go comet surface sampling design methodology", + "organization": "JPL", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/NPO-47199-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6284" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "The Interplanetary Overlay Network (ION) communication system is an implementation of Delay-Tolerant Networking (DTN) protocols for space flight operations. It enables reliable automatic data communication over a network of arbitrarily complex topology comprising both deep-space links and more Internet-like connections. The bundle protocol is used in DTNs which overlay multiple networks, some of which may be challenged by limitations such as intermittent and possibly unpredictable loss of connectivity, long or variable delay, asymmetric data rates, and high error rates. The purpose of the bundle protocol is to support interoperability across such stressed networks.", "identifier": "NPO-47211-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47211-1", + "laborHours": 0, + "name": "Bundle Security Protocol for ION", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47211-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6285" }, - "name": "The Dayside Ionospheric Superfountain", - "description": "The use of this software will help give an estimate of low altitude satellite drag during intense magnetic storm events. This will help in the tracking of spacecraft, communications with them, and help them apply correction effects. These effects may be particularly important for space activities. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "The use of this software will help give an estimate of low altitude satellite drag during intense magnetic storm events. This will help in the tracking of spacecraft, communications with them, and help them apply correction effects. These effects may be particularly important for space activities. ", "identifier": "NPO-47209-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47209-1", + "laborHours": 0, + "name": "The Dayside Ionospheric Superfountain", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6286" + "usageType": "governmentWideReuse" }, - "name": "MPS Editor", - "description": "The MPS Editor is written in Java using the Eclipse Rich Client Platform. The editor allows users to start in the early phases of development and continue on through the operations phases. It is currently built with four perspectives: the Activity Dictionary Perspective, the Project Adaptation Perspective, the Sequence Building Perspective and the Sequence Modeling Perspective. Each perspective performs a given task.The MPS editor uses the Eclipse Rich Client Platform to provide an environment that can be tailored to specific missions easily. It give them the capability to create/edit and Activity Dictionary, to build the simulation spacecraft models, to build and edit sequences of commands and to model the effect of those commands on the spacecraft.", + "repositoryURL": "https://software.nasa.gov/software/NPO-47209-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6286" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "The MPS Editor is written in Java using the Eclipse Rich Client Platform. The editor allows users to start in the early phases of development and continue on through the operations phases. It is currently built with four perspectives: the Activity Dictionary Perspective, the Project Adaptation Perspective, the Sequence Building Perspective and the Sequence Modeling Perspective. Each perspective performs a given task.The MPS editor uses the Eclipse Rich Client Platform to provide an environment that can be tailored to specific missions easily. It give them the capability to create/edit and Activity Dictionary, to build the simulation spacecraft models, to build and edit sequences of commands and to model the effect of those commands on the spacecraft.", "identifier": "NPO-47237-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47237-1", + "laborHours": 0, + "name": "MPS Editor", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47237-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6287" }, - "name": "Jitter_Correct.m", - "description": "The Jitter Correction software removes frame to frame image translations caused by line of sight motion. This technique could be used on future NASA surface imaging missions to remove the line of sight motion of the orbiting sensor. Jitter_Correct.m is a MATLAB function that takes an image sequence with unknown jitter and computes the translations of each frame (column and row, in pixels) relative to a chosen reference frame. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "The Jitter Correction software removes frame to frame image translations caused by line of sight motion. This technique could be used on future NASA surface imaging missions to remove the line of sight motion of the orbiting sensor. Jitter_Correct.m is a MATLAB function that takes an image sequence with unknown jitter and computes the translations of each frame (column and row, in pixels) relative to a chosen reference frame. ", "identifier": "NPO-47215-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47215-1", + "laborHours": 0, + "name": "Jitter_Correct.m", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6288" + "usageType": "governmentWideReuse" }, - "name": "Signal Processing Software for Remote Vital Signs Monitoring", - "description": "The work has tremendous value to NASA aeronautical and space activities. The software enables the capability to remotely (non-contact) estimate the heart rate and respiration rate of indidividuals using high frequency, narrow-band microwave (18Ghz - 30Ghz). ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47215-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6288" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "The work has tremendous value to NASA aeronautical and space activities. The software enables the capability to remotely (non-contact) estimate the heart rate and respiration rate of indidividuals using high frequency, narrow-band microwave (18Ghz - 30Ghz). ", "identifier": "NPO-47243-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47243-1", + "laborHours": 0, + "name": "Signal Processing Software for Remote Vital Signs Monitoring", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6289" + "usageType": "governmentWideReuse" }, - "name": "EOS MLS Level 1B Data Processing Software, version 3", - "description": "The primary goal of the Level 1 Processing software is to: 1. Qualify each data quantity using instrument configuration and checksum data as well as data transmission quality flags. Apply statistical tests for data quality and `reasonableness.' 2. Calibrate the instrument engineering data (e.g., voltages, currents, temperatures and encoder angles). 3. Interpolate filter channel space reference measurements onto the times of each limb measurement and difference the interpolates from the measurements. 4. Interpolate filter channel calibration target measurements onto the times of each limb measurement and compute radiometric gain. 5.Determine the total signal power analyzed by each Digital Autocorrelator Spectrometer (DACS) during each data integration. 6. Convert each DACS data integration from an autocorrelation measurement in the time domain into a spectral measurement in the frequency domain. Finally produce a Log file summarizing instrument performance and outputs. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47243-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb628a" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "This software performs stereo correlation line stripping for an FPGA. The Line Width Striping can be accomplished any number of times. Each stripe reduces the BRAM needed, allowing even larger images or allowing smaller resource usage.The line width stripe count can be different for different applications, and the image width can be different depending on the camera type. ", + "identifier": "NPO-47245-1", + "laborHours": 0, + "name": "SAD5 stereo correlation line striping in an FPGA", "organization": "JPL", - "identifier": "NPO-47219-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47219-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb628a" + "usageType": "governmentWideReuse" }, - "name": "SAD5 stereo correlation line striping in an FPGA", - "description": "This software performs stereo correlation line stripping for an FPGA. The Line Width Striping can be accomplished any number of times. Each stripe reduces the BRAM needed, allowing even larger images or allowing smaller resource usage.The line width stripe count can be different for different applications, and the image width can be different depending on the camera type. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47245-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb628b" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "VCAM can provide a means for monitoring the air within the enclosed environments, such as the ISS, Crew Exploration Vehicle (CEV), a Lunar Habitat, or another vehicle traveling to Mars. Its miniature preconcentrator, gas chromatograph (GC), and mass spectrometer can provide unbiased detection of a large number of organic species. VCAM's software can identify whether the chemicals are on a targeted list of hazardous compounds and their concentration.", + "identifier": "NPO-47217-1", + "laborHours": 0, + "name": "Histogrammatic Method for Determining Relative Abundance (MCA) of Input Gas Pulse in the Presence of Obscuring Gas Background", "organization": "JPL", - "identifier": "NPO-47245-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47245-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb628b" + "usageType": "governmentWideReuse" }, - "name": "Histogrammatic Method for Determining Relative Abundance (MCA) of Input Gas Pulse in the Presence of Obscuring Gas Background", - "description": "VCAM can provide a means for monitoring the air within the enclosed environments, such as the ISS, Crew Exploration Vehicle (CEV), a Lunar Habitat, or another vehicle traveling to Mars. Its miniature preconcentrator, gas chromatograph (GC), and mass spectrometer can provide unbiased detection of a large number of organic species. VCAM's software can identify whether the chemicals are on a targeted list of hazardous compounds and their concentration.", + "repositoryURL": "https://software.nasa.gov/software/NPO-47217-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Crew and Life Support" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6289" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "The primary goal of the Level 1 Processing software is to: 1. Qualify each data quantity using instrument configuration and checksum data as well as data transmission quality flags. Apply statistical tests for data quality and `reasonableness.' 2. Calibrate the instrument engineering data (e.g., voltages, currents, temperatures and encoder angles). 3. Interpolate filter channel space reference measurements onto the times of each limb measurement and difference the interpolates from the measurements. 4. Interpolate filter channel calibration target measurements onto the times of each limb measurement and compute radiometric gain. 5.Determine the total signal power analyzed by each Digital Autocorrelator Spectrometer (DACS) during each data integration. 6. Convert each DACS data integration from an autocorrelation measurement in the time domain into a spectral measurement in the frequency domain. Finally produce a Log file summarizing instrument performance and outputs. ", + "identifier": "NPO-47219-1", + "laborHours": 0, + "name": "EOS MLS Level 1B Data Processing Software, version 3", "organization": "JPL", - "identifier": "NPO-47217-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47217-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb628c" - }, - "name": "Router Agent Technology for Policy-based Network Management", - "description": "This stand-alone application is named 'RouterAgent'. We have currently realized a fully functional (version-1) implementation for Windows operating system and for CISCO routers; this version is already deployed in real world at APL and DISA test sites. We are in the process of realizing the same for Unix/Linux operating systems, Juniper routers, as well as, adding more advanced automation features to the realized products.\r\n", + "repositoryURL": "https://software.nasa.gov/software/NPO-47219-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb628c" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "This stand-alone application is named 'RouterAgent'. We have currently realized a fully functional (version-1) implementation for Windows operating system and for CISCO routers; this version is already deployed in real world at APL and DISA test sites. We are in the process of realizing the same for Unix/Linux operating systems, Juniper routers, as well as, adding more advanced automation features to the realized products.\r\n", "identifier": "NPO-47228-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47228-1", + "laborHours": 0, + "name": "Router Agent Technology for Policy-based Network Management", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47228-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb628d" }, - "name": "EOS MLS Level 2 Data Processing Software, version 3", - "description": "The EOS MLS Level 2 software uses the algorithm described in the 'MLS Retrieval processes Algorithm Theoretical Basis Document.' The software to implement the algorithm has been written in the Fortran 95 programming language, chosen because of its great suitability to handling the complex matrix and vector entities involved. Combining both the retrieval and simulation tasks in a single piece of software makes it far easier to ensure that identical forward model algorithms and parameters are used in both tasks and dramatically reduces the complexity of the code maintenance effort. The unique features of this software lies with the instrument and its unique capabilities to measure the atmospheric temperatures and composition at the earth's limb.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "The EOS MLS Level 2 software uses the algorithm described in the 'MLS Retrieval processes Algorithm Theoretical Basis Document.' The software to implement the algorithm has been written in the Fortran 95 programming language, chosen because of its great suitability to handling the complex matrix and vector entities involved. Combining both the retrieval and simulation tasks in a single piece of software makes it far easier to ensure that identical forward model algorithms and parameters are used in both tasks and dramatically reduces the complexity of the code maintenance effort. The unique features of this software lies with the instrument and its unique capabilities to measure the atmospheric temperatures and composition at the earth's limb.", "identifier": "NPO-47221-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47221-1", + "laborHours": 0, + "name": "EOS MLS Level 2 Data Processing Software, version 3", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47221-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb628e" }, - "name": "G-DYN Version-2: A Multibody Dynamics Engine", - "description": "This software is used in simulating touch and go maneuvers of robotic sampling system from a comet or asteroid. The algorithm is based on a primal-dual formulation of the dynamics that captures the interaction forces (dual formulation variables) between bodies, which is particularly useful for control and estimation analysis and synthesis. Furthermore, the dynamics model for each body can easily be replaced by a new model without re-deriving the overall equations of motion, and the assembly of the equations of motion is done automatically. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Propulsion" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "This software is used in simulating touch and go maneuvers of robotic sampling system from a comet or asteroid. The algorithm is based on a primal-dual formulation of the dynamics that captures the interaction forces (dual formulation variables) between bodies, which is particularly useful for control and estimation analysis and synthesis. Furthermore, the dynamics model for each body can easily be replaced by a new model without re-deriving the overall equations of motion, and the assembly of the equations of motion is done automatically. ", "identifier": "NPO-47195-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47195-1", + "laborHours": 0, + "name": "G-DYN Version-2: A Multibody Dynamics Engine", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47195-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Propulsion" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb628f" }, - "name": "G-TAG: A Multibody Simulation Software Testbed for Small Body Exploration and Sampling", - "description": "Any future small body mission will benefit from using this software. Indeed the software has already been extensively used. This software tool is used for the multi-body simulation of a spacecraft with a robotic arm and a sampling mechanism, which performs a touch-and-go (TAG) maneuver for sampling from the surface of a small celestial body. G-TAG utilizes G-DYN, a multi-body simulation engine, and interfaces to controllers, estimators, and environmental forces that affect the spacecraft. G-TAG can easily be adapted for the analysis of stress cases to assist the design of a TAG system as well as for comprehensive Monte-Carlo simulations to analyze a particular TAG system.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "Any future small body mission will benefit from using this software. Indeed the software has already been extensively used. This software tool is used for the multi-body simulation of a spacecraft with a robotic arm and a sampling mechanism, which performs a touch-and-go (TAG) maneuver for sampling from the surface of a small celestial body. G-TAG utilizes G-DYN, a multi-body simulation engine, and interfaces to controllers, estimators, and environmental forces that affect the spacecraft. G-TAG can easily be adapted for the analysis of stress cases to assist the design of a TAG system as well as for comprehensive Monte-Carlo simulations to analyze a particular TAG system.", "identifier": "NPO-47196-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47196-1", + "laborHours": 0, + "name": "G-TAG: A Multibody Simulation Software Testbed for Small Body Exploration and Sampling", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6290" + "usageType": "governmentWideReuse" }, - "name": "G-View: A Spacecraft GN&C Visualization Tool for Small Body Exploration and Sampling", - "description": "A newly developed 3-D software visualization tool for supporting spacecraft GN&C simulations relevant to small body exploration and sampling. The software is developed in Matlab and provides users with the ability to visualize the behavior of their simulations, regardless of whichprogramming language (or machine), is used to generate simulation results. The only requirement is that multibody simulation data is generated and placed in the proper format before applying G-View. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47196-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6291" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "HORIZON 5 is an extensible framework for data management systems. It is packaged with the following components SIP/AIP: The Open Archival Information System (OAIS) specification defines the framework for information capturing to information distribution. ", + "identifier": "NPO-49540-1", + "laborHours": 0, + "name": "HORIZON 5 - Framework for distributed data management and product generation workflow", "organization": "JPL", - "identifier": "NPO-47197-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47197-1", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" + "URL": "https://opensource.org/licenses/NASA-1.3", + "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6291" + "usageType": "openSource" }, - "name": "HORIZON 5 - Framework for distributed data management and product generation workflow", - "description": "HORIZON 5 is an extensible framework for data management systems. It is packaged with the following components SIP/AIP: The Open Archival Information System (OAIS) specification defines the framework for information capturing to information distribution. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-49540-1", "tags": [ "NASA", "JPL", "Open Source", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6290" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-27" + }, + "description": "A newly developed 3-D software visualization tool for supporting spacecraft GN&C simulations relevant to small body exploration and sampling. The software is developed in Matlab and provides users with the ability to visualize the behavior of their simulations, regardless of whichprogramming language (or machine), is used to generate simulation results. The only requirement is that multibody simulation data is generated and placed in the proper format before applying G-View. ", + "identifier": "NPO-47197-1", + "laborHours": 0, + "name": "G-View: A Spacecraft GN&C Visualization Tool for Small Body Exploration and Sampling", "organization": "JPL", - "identifier": "NPO-49540-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-49540-1", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.org/licenses/NASA-1.3", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47197-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6292" }, - "name": "RedShift: mobile app for following the tactical and strategic operations meeting schedule", - "description": "The RedShift mobile app lets operations staff on the MSL project follow the operations schedule of tactical and strategic meetings. RedShift is an application for iOS and Android that presents the meeting agenda for MSL strategic and tactical meeting events that are a part of the operations workflow.", - "tags": [ - "NASA", - "JPL", - "Open Source", - "Business Systems and Project Management" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "The RedShift mobile app lets operations staff on the MSL project follow the operations schedule of tactical and strategic meetings. RedShift is an application for iOS and Android that presents the meeting agenda for MSL strategic and tactical meeting events that are a part of the operations workflow.", "identifier": "NPO-50256-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-50256-1", + "laborHours": 0, + "name": "RedShift: mobile app for following the tactical and strategic operations meeting schedule", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-50256-1", + "tags": [ + "NASA", + "JPL", + "Open Source", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6293" }, - "name": "Juneberry Web Service Software", - "description": "Implements the open webification API and provides ReSTful web services for planetary image data in commonly-used formats. Exposes content of planetary image data through meaningful URLs and enables creation of applications on diverse platforms.", - "tags": [ - "NASA", - "JPL", - "Open Source", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "Implements the open webification API and provides ReSTful web services for planetary image data in commonly-used formats. Exposes content of planetary image data through meaningful URLs and enables creation of applications on diverse platforms.", "identifier": "NPO-48378-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-48378-1", + "laborHours": 0, + "name": "Juneberry Web Service Software", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6294" + "usageType": "openSource" }, - "name": "The EDRN Knowledge Environment", - "description": "JPL has provided the underlying infrastructure to share data increasing the study power associated with capturing and comparing information. The infrastructure provides software services including data processing and management (eCAS), biomarker data management (BMDB), specimen data management (ERNE), and a portal to link the system together and provide access. These are software built on top of the Apache OODT software services.", + "repositoryURL": "https://software.nasa.gov/software/NPO-48378-1", "tags": [ "NASA", "JPL", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6294" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "JPL has provided the underlying infrastructure to share data increasing the study power associated with capturing and comparing information. The infrastructure provides software services including data processing and management (eCAS), biomarker data management (BMDB), specimen data management (ERNE), and a portal to link the system together and provide access. These are software built on top of the Apache OODT software services.", "identifier": "NPO-48644-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-48644-1", + "laborHours": 0, + "name": "The EDRN Knowledge Environment", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6295" + "usageType": "openSource" }, - "name": "DEMUD: Discovery through Eigenbasis Modeling of Uninteresting Data", - "description": "We have developed a machine learning solution called DEMUD (Discovery through Eigenbasis Modeling of Uninteresting Data). DEMUD works by building a model U of the uninteresting class and then identifying items that are maximally anomalous (and therefore likely to be interesting) with respect to that model.\r\n", + "repositoryURL": "https://software.nasa.gov/software/NPO-48644-1", "tags": [ "NASA", "JPL", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6295" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "We have developed a machine learning solution called DEMUD (Discovery through Eigenbasis Modeling of Uninteresting Data). DEMUD works by building a model U of the uninteresting class and then identifying items that are maximally anomalous (and therefore likely to be interesting) with respect to that model.\r\n", "identifier": "NPO-48877-1", - "repositoryURL": "https://github.com/wkiri/DEMUD", + "laborHours": 0, + "name": "DEMUD: Discovery through Eigenbasis Modeling of Uninteresting Data", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/wkiri/DEMUD/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6296" + "usageType": "openSource" }, - "name": "DTNTAP", - "description": "DTNTAP is a userspace Ethernet driver with the potential to expedite DTN deployment by providing a transition mechanism for legacy IP (Internet Protocol) applications to run alongside delay and disruption tolerant applications in large scale communication networks. By presenting an Ethernet-like interface, DTNTAP gives application developers access to many of the benefits of DTN without having to become immediately proficient at a new programming API.", + "repositoryURL": "https://github.com/wkiri/DEMUD", "tags": [ "NASA", "JPL", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6296" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "DTNTAP is a userspace Ethernet driver with the potential to expedite DTN deployment by providing a transition mechanism for legacy IP (Internet Protocol) applications to run alongside delay and disruption tolerant applications in large scale communication networks. By presenting an Ethernet-like interface, DTNTAP gives application developers access to many of the benefits of DTN without having to become immediately proficient at a new programming API.", "identifier": "NPO-48906-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-48906-1", + "laborHours": 0, + "name": "DTNTAP", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6297" + "usageType": "openSource" }, - "name": "DTKA, a Prototype Implementation of Delay-Tolerant Security Key Distribution", - "description": "Unlike all Internet mechanisms for security distribution (e.g., certificate authorities), DTKA operates over the extremely long signal propagation times and interrupted links that characterize communication with interplanetary spacecraft. It has no single point of failure and cannot be \"spoofed\" by an attacker's subversion of any single key authority machine (or even two key authority machines, in most configurations. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-48906-1", "tags": [ "NASA", "JPL", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6297" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "Unlike all Internet mechanisms for security distribution (e.g., certificate authorities), DTKA operates over the extremely long signal propagation times and interrupted links that characterize communication with interplanetary spacecraft. It has no single point of failure and cannot be \"spoofed\" by an attacker's subversion of any single key authority machine (or even two key authority machines, in most configurations. ", "identifier": "NPO-49413-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-49413-1", + "laborHours": 0, + "name": "DTKA, a Prototype Implementation of Delay-Tolerant Security Key Distribution", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6298" + "usageType": "openSource" }, - "name": "Juneplum - ReSTful Web Access of OPeNDAP Hyrax Back End Server", - "description": "Juneplum is implemented as a Java servlet webapp and can be directly deployed into the same servlet engine that Hyrax frontend lives in. With Juneplum, any data product served by OPeNDAP is made simultaneously accessible in a fully ReSTful way.", + "repositoryURL": "https://software.nasa.gov/software/NPO-49413-1", "tags": [ "NASA", "JPL", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6298" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "Juneplum is implemented as a Java servlet webapp and can be directly deployed into the same servlet engine that Hyrax frontend lives in. With Juneplum, any data product served by OPeNDAP is made simultaneously accessible in a fully ReSTful way.", "identifier": "NPO-49868-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-49868-1", + "laborHours": 0, + "name": "Juneplum - ReSTful Web Access of OPeNDAP Hyrax Back End Server", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6299" - }, - "name": "EDGE - The Extensible Data Gateway Environment", - "description": "EDGE uses Apache Solr for fast indexed search backend. Inventory data stored in PO.DAAC's Oracle server is being incrementally indexed avery 15 minutes. Apache Solr provides optimal search solution to all data it managements. By offloading data from Oracle, this eliminates Denial of Service (DoS) attacks against the core data management backend. To further ensure reliable serving of data, EDGE's Apache Solr uses Master and Slave model. The Master instance is for data indexing. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-49868-1", "tags": [ "NASA", "JPL", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6299" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "EDGE uses Apache Solr for fast indexed search backend. Inventory data stored in PO.DAAC's Oracle server is being incrementally indexed avery 15 minutes. Apache Solr provides optimal search solution to all data it managements. By offloading data from Oracle, this eliminates Denial of Service (DoS) attacks against the core data management backend. To further ensure reliable serving of data, EDGE's Apache Solr uses Master and Slave model. The Master instance is for data indexing. ", "identifier": "NPO-49884-1", - "repositoryURL": "https://github.com/dataplumber/edge", + "laborHours": 0, + "name": "EDGE - The Extensible Data Gateway Environment", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/dataplumber/edge/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb629a" + "usageType": "openSource" }, - "name": "NEXUS: Deep Data Platform", - "description": "NEXUS provides a bridge between science data and horizontal-scaling data analysis. It provides a workflow to divide science artifacts into small data tiles to store in a cloud-scaled database where they can be quickly retrieved through a high performance spatial search registry. Through spatial index, NEXUS provides fast access to all relevant data tiles where each tile fits into RAM for fast in-memory computation. ", + "repositoryURL": "https://github.com/dataplumber/edge", "tags": [ "NASA", "JPL", "Open Source", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb629a" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "NEXUS provides a bridge between science data and horizontal-scaling data analysis. It provides a workflow to divide science artifacts into small data tiles to store in a cloud-scaled database where they can be quickly retrieved through a high performance spatial search registry. Through spatial index, NEXUS provides fast access to all relevant data tiles where each tile fits into RAM for fast in-memory computation. ", "identifier": "NPO-50157-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-50157-1", + "laborHours": 0, + "name": "NEXUS: Deep Data Platform", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-50157-1", + "tags": [ + "NASA", + "JPL", + "Open Source", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb629b" }, - "name": "Radiometric Calibration of UAVSAR Images", - "description": "UAVSAR backscatter data contain both geometric and radiometric distortions due to underlying topography and the radar viewing geometry. Currently, backscatter variation due to topography is the single largest error source when estimating biomass over steep or hilly terrain. Thus, proper calibration normalizes the backscatter images so that only contributions from the parameters of interest remain. ", - "tags": [ - "NASA", - "JPL", - "Open Source", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "UAVSAR backscatter data contain both geometric and radiometric distortions due to underlying topography and the radar viewing geometry. Currently, backscatter variation due to topography is the single largest error source when estimating biomass over steep or hilly terrain. Thus, proper calibration normalizes the backscatter images so that only contributions from the parameters of interest remain. ", "identifier": "NPO-47969-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47969-1", + "laborHours": 0, + "name": "Radiometric Calibration of UAVSAR Images", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb629c" + "usageType": "openSource" }, - "name": "GNEIMO Advanced Techniques for Constrained Internal Coordinate Molecular Dynamics", - "description": "The GNEIMO methods and algorithms build up on the Spatial Operator Algebra (SOA) multibody dynamics framework. The specific problems addressed in this work are velocity intialization techniques that are consistent with the CICMD equipartition priniciple, techniques for nulling momentum drift, analysis and solutions for the flying ice-cube effect, and performance of integration schemes. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47969-1", "tags": [ "NASA", "JPL", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb629d" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", - "identifier": "NPO-48712-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-48712-1", - "permissions": { - "licenses": [ - { - "URL": "https://opensource.org/licenses/NASA-1.3", - "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2016-11-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb629d" }, + "description": "Just as web search involves more than matching phrases, spectral search is more challenging than simply matching the shape of the spectrum. 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", + "organization": "JPL", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://opensource.org/licenses/NASA-1.3", + "name": "NASA v3" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://software.nasa.gov/software/NPO-49004-1", "tags": [ "NASA", "JPL", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb629c" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-10" + }, + "description": "The GNEIMO methods and algorithms build up on the Spatial Operator Algebra (SOA) multibody dynamics framework. The specific problems addressed in this work are velocity intialization techniques that are consistent with the CICMD equipartition priniciple, techniques for nulling momentum drift, analysis and solutions for the flying ice-cube effect, and performance of integration schemes. 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", "identifier": "NPO-47703-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47703-1", + "laborHours": 0, + "name": "Ndarts", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47703-1", + "tags": [ + "NASA", + "JPL", + "Open Source", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62aa" }, - "name": "Athena", - "description": "One of the big efforts of NASA is the observation of planet earth from space. Global climate change is a prime example. 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", "identifier": "NPO-47857-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47857-1", + "laborHours": 0, + "name": "Athena", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-10" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47857-1", + "tags": [ + "NASA", + "JPL", + "Open Source", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62ab" }, - "name": "Oceanographic Data Management And Archive System", - "description": "The Physical Oceanography Distributed Active Archive Center (PO.DAAC) is the center for oceanographic data for the NASA Earth Science Data and Information System (ESDIS). 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", "identifier": "NPO-47436-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47436-1", + "laborHours": 0, + "name": "Geometric Reasoning for Automated Planning", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47436-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Crew and Life Support" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62ad" }, - "name": "Delay Tolerant Networking Contact Graph Routing MACHETE model", - "description": "Models the Contact Graph Routing (CGR) system proposed for future NASA missions and used in DINET1 and DINET2 experiments. 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Additionally, by basing the tools purely on first principles and utilizing a high degree of generalization, the same set of tools can be applied to imaging systems not in orbit (i.e. helicoptors, high altitude planes, etc). ", + "identifier": "NPO-47281-1", + "laborHours": 0, + "name": "GOATS Image Projections Component", "organization": "JPL", - "identifier": "NPO-47406-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47406-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62af" + "usageType": "governmentWideReuse" }, - "name": "S-Band POSIX device driver for RTEMS", - "description": "Defines a device driver that runs using the POSIX real-time operating system package to provide a FPGA interface to the S-Band hardware for the CoNNeCT experiment. Instead of interacting with hardware devices directly using direct-memory mapped access at the application level, this driver provides an API offering easy to use standard POSIX function calls. This simplifies application programming as well as offering an additional level of protection to the hardware and portability.", + "repositoryURL": "https://software.nasa.gov/software/NPO-47281-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62ae" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "Models the Delay Tolerant Link State Routing protocol. Analyze the impacts of different DTN routing protocols for NASA missions. 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This architecture standard provides a detailed description and set of requirements to implement the architecture. ", "identifier": "NPO-47328-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47328-1", + "laborHours": 0, + "name": "Architectural Implementation of NASA Space Telecommunications Radio System Specification", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47328-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62b2" }, - "name": "Autonomous Coordination of Science Observations using Multiple Spacecraft Assets", - "description": "This autonomous science system for multiple spacecraft assets was integrated with the Interplanetary Network DTN (Delay Tolerant Network) to provide communication between spacecraft assets. 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It is an implementation to test the functionality of NTP basic and interleaved Symmetric algorithm that can be integrated with CCSDS Prox-1 to provide the time distribution and synchronization service. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47398-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62b4" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "This software may be used to support various communications requirements imposed by different missions, interplanetary communication protocols need to be designed, validated and evaluated carefully. A communications network simulation tool is essential for the performance evaluation of space communications protocols. ", + "identifier": "NPO-47464-1", + "laborHours": 0, + "name": "CCSDS Advanced Orbiting Systems Virtual Channel Access Service for QoS", "organization": "JPL", - "identifier": "NPO-47404-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47404-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62b4" + "usageType": "governmentWideReuse" }, - "name": "CCSDS Advanced Orbiting Systems Virtual Channel Access Service for QoS", - "description": "This software may be used to support various communications requirements imposed by different missions, interplanetary communication protocols need to be designed, validated and evaluated carefully. A communications network simulation tool is essential for the performance evaluation of space communications protocols. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47464-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62b3" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "This software implements the NTP algorithm for Space communications and can be used as a basis for further higher TRL prototype or flight software development. It is an implementation to test the functionality of NTP basic and interleaved Symmetric algorithm that can be integrated with CCSDS Prox-1 to provide the time distribution and synchronization service. ", + "identifier": "NPO-47404-1", + "laborHours": 0, + "name": "Software Modules for Proximity-1 Space Link Interleaved Time Synchronization (PITS) Protocol", "organization": "JPL", - "identifier": "NPO-47464-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47464-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62b5" - }, - "name": "MSLICE Sequencing", - "description": "This tool was developed for the NASA Mars Science Laboratory (MSL) mission. MSLICE Sequencing is a graphical tool for writing sequences and integrating them into RML files, as well as producing SCMF files for uplink. When operated in a testbed environment, it also supports uplinking these SCMF files to the testbed via Chill.", + "repositoryURL": "https://software.nasa.gov/software/NPO-47404-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Operations" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62b6" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "During the Cassini spacecraft's cruise phase and nominal mission the Cassini Science Planning Team developed and maintained an online database of geometric and timing information called the Cassini Tour Atlas. ", + "identifier": "NPO-47282-1", + "laborHours": 0, + "name": "Cassini Tour Atlas Automated Generation", "organization": "JPL", - "identifier": "NPO-47292-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47292-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62b6" - }, - "name": "Cassini Tour Atlas Automated Generation", - "description": "During the Cassini spacecraft's cruise phase and nominal mission the Cassini Science Planning Team developed and maintained an online database of geometric and timing information called the Cassini Tour Atlas. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47282-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62b5" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "This tool was developed for the NASA Mars Science Laboratory (MSL) mission. MSLICE Sequencing is a graphical tool for writing sequences and integrating them into RML files, as well as producing SCMF files for uplink. 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", + "repositoryURL": "https://software.nasa.gov/software/NPO-47292-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Autonomous Systems" - ], + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62b8" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "The Space Images for NASA JPL is an iPhone application system which allows the General Public to view and rate images directly from an individual's iPhone. This system consists of four distinguishing components: image repository, database, server-side logic, and iPhone application. The image repository contains JPL planetary and mission images from various projects. The database stores the image information as well as the user rating. The server-side logic retrieves the image information from the database and categorizes each image for display. ", + "identifier": "NPO-47264-1", + "laborHours": 0, + "name": "Space Images for NASA JPL", "organization": "JPL", - "identifier": "NPO-47270-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47270-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62b8" + "usageType": "governmentWideReuse" }, - "name": "Space Images for NASA JPL", - "description": "The Space Images for NASA JPL is an iPhone application system which allows the General Public to view and rate images directly from an individual's iPhone. This system consists of four distinguishing components: image repository, database, server-side logic, and iPhone application. The image repository contains JPL planetary and mission images from various projects. The database stores the image information as well as the user rating. The server-side logic retrieves the image information from the database and categorizes each image for display. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47264-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62b7" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "The contribution (Autonomous Phase Retrieval Calibration) is technologically significant to the space (astronomy) community, since it provides a significant leap in the optical performance of a large observatory by using only software to optimize existing controllable hardware in ways that were never before possible. ", + "identifier": "NPO-47270-1", + "laborHours": 0, + "name": "Autonomous Phase Retrieval Calibration (APRC)", "organization": "JPL", - "identifier": "NPO-47264-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47264-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47270-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62b9" }, - "name": "Multi-Mission Power Analysis Tool, MMPAT, Version 2", - "description": "The Multi-Mission Power Analysis Tool (MMPAT) simulates a spacecraft power subsystem including the power source (solar array and/or radioisotope thermoelectric generator), bus-voltage control, secondary battery (lithium-ion or nickel-hydrogen), thermostatic heaters and power-consuming equipment. It handles multiple mission types including heliocentric orbiters, planetary orbiters and surface operations. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "The Multi-Mission Power Analysis Tool (MMPAT) simulates a spacecraft power subsystem including the power source (solar array and/or radioisotope thermoelectric generator), bus-voltage control, secondary battery (lithium-ion or nickel-hydrogen), thermostatic heaters and power-consuming equipment. It handles multiple mission types including heliocentric orbiters, planetary orbiters and surface operations. ", "identifier": "NPO-47290-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47290-1", + "laborHours": 0, + "name": "Multi-Mission Power Analysis Tool, MMPAT, Version 2", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62ba" + "usageType": "governmentWideReuse" }, - "name": "Frequency Correction for MIRO Chirp Transformation Spectroscopy Spectrum", - "description": "A lightweight, uncooled dual-frequency heterodyne radiometer named MIRO is developed for the European Space Agency Rosetta mission to Comet 67P. MIRO contains a 4096 channel CTS spectrometer which has 180 MHz total bandwidth and 4 KHz resolution. The CTS channels translate into 8 molecular transition bands. The MIRO CTS will measure direct outgassing of four major volatile species from the cometary nucleus (H2O, CO, CH3OH, and NH3). It will also measure the fundamental isotopo ratios, 17O/16O and 18O/16O, using the isotopologues H216O and H217O, and H218O. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47290-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Data and Image Processing" - ], + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62bb" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "This software is used in an automated cryogenic control system developed to monitor and control the operation of small-scale crycoolers. The system was designed to automate cryogenically cooled low-noise-amplifier systems used in the NASA Deep Space Network (DSN). It automates the entire operation of the system including cool down, warm-up and performance monitoring. ", + "identifier": "NPO-47247-1", + "laborHours": 0, + "name": "Automated Cryocooler Monitor and Control System Software", "organization": "JPL", - "identifier": "NPO-47304-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47304-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62bb" + "usageType": "governmentWideReuse" }, - "name": "Automated Cryocooler Monitor and Control System Software", - "description": "This software is used in an automated cryogenic control system developed to monitor and control the operation of small-scale crycoolers. The system was designed to automate cryogenically cooled low-noise-amplifier systems used in the NASA Deep Space Network (DSN). It automates the entire operation of the system including cool down, warm-up and performance monitoring. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47247-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Structures and Mechanisms" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62ba" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "A lightweight, uncooled dual-frequency heterodyne radiometer named MIRO is developed for the European Space Agency Rosetta mission to Comet 67P. MIRO contains a 4096 channel CTS spectrometer which has 180 MHz total bandwidth and 4 KHz resolution. The CTS channels translate into 8 molecular transition bands. The MIRO CTS will measure direct outgassing of four major volatile species from the cometary nucleus (H2O, CO, CH3OH, and NH3). It will also measure the fundamental isotopo ratios, 17O/16O and 18O/16O, using the isotopologues H216O and H217O, and H218O. ", + "identifier": "NPO-47304-1", + "laborHours": 0, + "name": "Frequency Correction for MIRO Chirp Transformation Spectroscopy Spectrum", "organization": "JPL", - "identifier": "NPO-47247-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47247-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47304-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62bc" }, - "name": "Characterization of cloud water content distributions", - "description": "The fundamental problem of cloud parameterization is to characterize the distributions of cloud variables at sub-grid scales and to relate the sub-grid variations to the resolved flow. This software solves the problem by estimating the probability density function of cloud water content at the sub-grid scale using CloudSat measurements. This tool uses a statistical method called Maximum Likelihood Estimation to estimate the probability density function of the cloud water content. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "The fundamental problem of cloud parameterization is to characterize the distributions of cloud variables at sub-grid scales and to relate the sub-grid variations to the resolved flow. This software solves the problem by estimating the probability density function of cloud water content at the sub-grid scale using CloudSat measurements. This tool uses a statistical method called Maximum Likelihood Estimation to estimate the probability density function of the cloud water content. ", "identifier": "NPO-47248-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47248-1", + "laborHours": 0, + "name": "Characterization of cloud water content distributions", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47248-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62bd" }, - "name": "Tiled WMS/KML server v2", - "description": "By integrating tiled WMS and KML, access to NASA satellite images or data can be easier to accomplish. Very high data rates can be achieved, making this software suitable for a public access web server. The high performance data service can be used by demanding or interactive applications that require geographically located data.", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "By integrating tiled WMS and KML, access to NASA satellite images or data can be easier to accomplish. Very high data rates can be achieved, making this software suitable for a public access web server. The high performance data service can be used by demanding or interactive applications that require geographically located data.", "identifier": "NPO-47308-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47308-1", + "laborHours": 0, + "name": "Tiled WMS/KML server v2", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62be" + } + ], + "usageType": "governmentWideReuse" }, - "name": "3D Orbit Visualization for Earth Observing Missions", - "description": "A software application was developed to visualize orbit paths for the Orbiting Carbon Observatory (OCO). This software enables interactive exploration of spacecraft orbit paths and ground footprint paths in a 3D environment. Detailed information about any particular observation frame is available through a point-and-click \"drill down\" capability. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47308-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62bf" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "DspaceOgre can be useful for robotics technology development. It will also be useful for basic research in molecular dynamics modeling. DspaceOgre is a general purpose 3D graphics visualization C++ tool designed for the visualization of simulation and analysis data for articulated mechanisms. Examples of such systems range from space vehicles, robotic arms, biomechanics models, bio-molecular structures etc. ", + "identifier": "NPO-47380-1", + "laborHours": 0, + "name": "DspaceOgre 3D Graphics Visualization Tool", "organization": "JPL", - "identifier": "NPO-47316-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47316-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62bf" + "usageType": "governmentWideReuse" }, - "name": "DspaceOgre 3D Graphics Visualization Tool", - "description": "DspaceOgre can be useful for robotics technology development. It will also be useful for basic research in molecular dynamics modeling. DspaceOgre is a general purpose 3D graphics visualization C++ tool designed for the visualization of simulation and analysis data for articulated mechanisms. Examples of such systems range from space vehicles, robotic arms, biomechanics models, bio-molecular structures etc. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47380-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62be" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "A software application was developed to visualize orbit paths for the Orbiting Carbon Observatory (OCO). This software enables interactive exploration of spacecraft orbit paths and ground footprint paths in a 3D environment. Detailed information about any particular observation frame is available through a point-and-click \"drill down\" capability. ", + "identifier": "NPO-47316-1", + "laborHours": 0, + "name": "3D Orbit Visualization for Earth Observing Missions", "organization": "JPL", - "identifier": "NPO-47380-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47380-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47316-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62c0" }, - "name": "MaROS: Web Visualization of Mars Orbiting and Landed Assets (Phase 1)", - "description": "This new software application aims to reduce this complexity by presenting a visualization of the overpass time ranges, elevation angle, as well as other information. The user is able to select a specific overflight opportunity to receive further information about that particular pass.This software is unique in the it is the first of its kind to visually display the information regarding communication opportunities between landed and orbiting Mars assets. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "This new software application aims to reduce this complexity by presenting a visualization of the overpass time ranges, elevation angle, as well as other information. The user is able to select a specific overflight opportunity to receive further information about that particular pass.This software is unique in the it is the first of its kind to visually display the information regarding communication opportunities between landed and orbiting Mars assets. ", "identifier": "NPO-47413-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47413-1", + "laborHours": 0, + "name": "MaROS: Web Visualization of Mars Orbiting and Landed Assets (Phase 1)", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62c1" + "usageType": "governmentWideReuse" }, - "name": "Parallel wavefront analysis for a 4D interferometer", - "description": "This invention reduces the time to measure an adaptive optics systems (like James Webb Space Telescope), reducing the cost of system verification and validation. A process that would have taken a week to complete can be done in a few hours.", + "repositoryURL": "https://software.nasa.gov/software/NPO-47413-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Data Servers Processing and Handling" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62c2" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "This software is provided by the Mars Relay Operations Service (MaROS) task to a variety of Mars projects for the purpose of coordinating communications sessions between landed spacecraft assets and orbiting spacecraft assets at Mars. ", + "identifier": "NPO-47454-1", + "laborHours": 0, + "name": "MaROS: Information Management Service (Phase 1)", "organization": "JPL", - "identifier": "NPO-47384-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47384-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62c2" + "usageType": "governmentWideReuse" }, - "name": "MaROS: Information Management Service (Phase 1)", - "description": "This software is provided by the Mars Relay Operations Service (MaROS) task to a variety of Mars projects for the purpose of coordinating communications sessions between landed spacecraft assets and orbiting spacecraft assets at Mars. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47454-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62c1" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "This invention reduces the time to measure an adaptive optics systems (like James Webb Space Telescope), reducing the cost of system verification and validation. A process that would have taken a week to complete can be done in a few hours.", + "identifier": "NPO-47384-1", + "laborHours": 0, + "name": "Parallel wavefront analysis for a 4D interferometer", "organization": "JPL", - "identifier": "NPO-47454-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47454-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62c3" + "usageType": "governmentWideReuse" }, - "name": "Flight Planning in the Cloud", - "description": "This software can be used by light project funded by NASA. This interface can also be used by other airborne scienceinstruments.Some of the main features of the interface include drawing flight lines on the map, nudging them, adding them to the current flight plan, and reordering them. The user can also search and select takeoff, landing, and intermediate airports. As the flight plan is constructed, all of its components are constantly being saved to the database and the estimated flight times are updated. ", + "repositoryURL": "https://software.nasa.gov/software/NPO-47384-1", "tags": [ "NASA", "JPL", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62c3" + }, "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "This software can be used by light project funded by NASA. This interface can also be used by other airborne scienceinstruments.Some of the main features of the interface include drawing flight lines on the map, nudging them, adding them to the current flight plan, and reordering them. The user can also search and select takeoff, landing, and intermediate airports. As the flight plan is constructed, all of its components are constantly being saved to the database and the estimated flight times are updated. ", "identifier": "NPO-47472-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47472-1", + "laborHours": 0, + "name": "Flight Planning in the Cloud", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-16" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47472-1", + "tags": [ + "NASA", + "JPL", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62c4" }, - "name": "uShell - A minimalist shell for the Xilinx Virtex PPC-class and Microblaze microprocessors", - "description": "This sofftware has the potential to simplify testing, verification, and validation of future air-and-space-based instrument electronics designs. In recent years there has been a growing interest in using FPGA-based microprocessor designs for instrument electronics (see e.g. the funding task, SOAR, MSPI, PanFTS, ISAAC). As the FPGA technology at JPL matures from \"glue-logic\" chips to full-fledged instrument processors, we will need to improve our ability to test, verify, and validate these designs. ", - "tags": [ - "NASA", - "JPL", - "U.S. Government Purpose Release", - "System Testing" - ], "contact": { "email": "jpl_ott@jpl.nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-16" + }, + "description": "This sofftware has the potential to simplify testing, verification, and validation of future air-and-space-based instrument electronics designs. In recent years there has been a growing interest in using FPGA-based microprocessor designs for instrument electronics (see e.g. the funding task, SOAR, MSPI, PanFTS, ISAAC). As the FPGA technology at JPL matures from \"glue-logic\" chips to full-fledged instrument processors, we will need to improve our ability to test, verify, and validate these designs. 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The system uses NASA-approved authentication methods and is 508 compliant.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25587-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62d0" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The ultrasound imaging of hard objects creates a reverberant signal, whereas imaging tissue does not. 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The tool processes a series of B-mode images to track a region of interest, offers visual feedback of position location to the user, and targets a stone for automated adaptive pushing. The algorithm uses a colored display scheme to report a confidence estimation of stone location.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25188-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Crew and Life Support" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62cd" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Electronic Guest Operations (EGO) has been used as an all-encompassing electronic guest management system for tracking guest invitations/RSVPs to Space Shuttle launches, landings, and receptions. 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The Constellation program also used EGO to invite guests to attend the Pad Abort (PA-1) test flight in 2010.", + "identifier": "MSC-25083-1", + "laborHours": 0, + "name": "Electronic Guest Operations (EGO)", "organization": "JSC", - "identifier": "MSC-25192-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25192-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62d0" + "usageType": "governmentWideReuse" }, - "name": "Ultrasound Technique to Separate Hard Objects from Tissue by the Long-Lasting Reverberation in Hard Objects", - "description": "The ultrasound imaging of hard objects creates a reverberant signal, whereas imaging tissue does not. This technology development effort has sought to exploit that difference to improve kidney stone detection.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25083-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", - "Crew and Life Support" - ], + "Business Systems and Project Management" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62ce" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "JATS is an action-tracking tool that allows for attachments, multiple assignees, dependent and cloned actions, the export control filtering of attachments, and the delegation of responsibilities to another user. JATS utilizes \"grouping\" and \"roles\" so that the system can be tailored to fit an organization's specific needs. 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The system uses NASA-approved authentication methods and is 508 compliant.", + "identifier": "MSC-25659-1", + "laborHours": 0, + "name": "Johnson Space Center (JSC) Action-Tracking System (JATS)", "organization": "JSC", - "identifier": "MSC-25188-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25188-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25659-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62d1" }, - "name": "Atomistic Simulation of Complex DNA DSBs and the Interactions with the Ku70/80 Heterodimer", - "description": "This software assisted in the development of molecular dynamics simulations on a series of DNA duplexes with various complex lesions. The tool helped to investigate the effects of such lesions on the structural integrity and stability of DNA after it had been insulted by infrared radiation.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Crew and Life Support" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software assisted in the development of molecular dynamics simulations on a series of DNA duplexes with various complex lesions. The tool helped to investigate the effects of such lesions on the structural integrity and stability of DNA after it had been insulted by infrared radiation.", "identifier": "MSC-25180-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25180-1", + "laborHours": 0, + "name": "Atomistic Simulation of Complex DNA DSBs and the Interactions with the Ku70/80 Heterodimer", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62d2" + "usageType": "governmentWideReuse" }, - "name": "Spaceflight Dietary Intake", - "description": "This technology allows a crew to record dietary intake quickly and accurately.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25180-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Crew and Life Support" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62d2" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology allows a crew to record dietary intake quickly and accurately.", "identifier": "MSC-25693-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25693-1", + "laborHours": 0, + "name": "Spaceflight Dietary Intake", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62d3" + "usageType": "governmentWideReuse" }, - "name": "Integrated Cognitive Assessment Tool: Combining Person, System, and Mission", - "description": "In short, the Integrated Cognitive Assessment Tool yields quantified measurements of a person's cognitive ability to perform a specific job in space. The software integrates traditional cognitive performance measurements with assessments of the systems/missions in which an individual must operate.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25693-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Crew and Life Support" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62cf" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "A software component of the Rolling Stones prototype, this algorithm uses focused ultrasound to clear stones from a kidney. The tool processes a series of B-mode images to track a region of interest, offers visual feedback of position location to the user, and targets a stone for automated adaptive pushing. 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The macro can also process surface solutions.", + "identifier": "MSC-24982-1", + "laborHours": 0, + "name": "Computational Fluid Dynamics (CFD) Extraction Tool for TecPlot from Data Parallel Line Relaxations (DPLR) Solutions", "organization": "JSC", - "identifier": "MSC-25610-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25610-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62e1" + "usageType": "governmentWideReuse" }, - "name": "Computational Fluid Dynamics (CFD) Extraction Tool for TecPlot from Data Parallel Line Relaxations (DPLR) Solutions", - "description": "This innovation is a TecPlot macro computer program that processes data from Data Parallel Line Relaxations (DPLR) solutions in TecPlot format. 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The macro can also process surface solutions.", + "repositoryURL": "https://software.nasa.gov/software/MSC-24982-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62d6" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This NASA-developed technology improves kidney-size determination through ultrasound.", + "identifier": "MSC-25187-1", + "laborHours": 0, + "name": "New Ultrasound Imaging Regime for Improved Size Measuring of Hard Concretions Present in Soft Tissues Based on Observation of Ultrasound Shadow on a B-Mode Image", "organization": "JSC", - "identifier": "MSC-24982-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24982-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62e2" + "usageType": "governmentWideReuse" }, - "name": "Information Sharing Protocol VCR (ISPVCR)", - "description": "Written in Tcl/tk, the ISPVCR software program provides the capability to record and play back Information Sharing Protocol (ISP) data via Source Independent Telemetry Format (SITF) files. A graphical user interface starts and stops recording and playback and also specifies output file names.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25187-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], + "Crew and Life Support" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62dd" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Developed for the Constellation program, Jitter Controller Software helps manage the relationships between phase jitter crest factor, frequency jitter crest factor, and cycle-to-cycle crest factor. Written in LabVIEW, the code calls Agilent drivers to write to generator hardware. Although not well documented and originally intended to be disposable, the software has been reused.", + "identifier": "MSC-24814-1", + "laborHours": 0, + "name": "Jitter Controller Software", "organization": "JSC", - "identifier": "MSC-25608-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25608-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24814-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62e3" }, - "name": "Code for Finding the Running Maximum, Minimum, and Range of a Data Variable in Stata Statistical Software", - "description": "This technology is used to create a data variable that contains the running maximum, minimum, and range (maximum minus minimum) of another variable in a Stata data set. The code can also conceptually divide a data set according to values of other variables and calculate the running maximum, minimum, or range separately within each division.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology is used to create a data variable that contains the running maximum, minimum, and range (maximum minus minimum) of another variable in a Stata data set. The code can also conceptually divide a data set according to values of other variables and calculate the running maximum, minimum, or range separately within each division.", "identifier": "MSC-25722-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25722-1", + "laborHours": 0, + "name": "Code for Finding the Running Maximum, Minimum, and Range of a Data Variable in Stata Statistical Software", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62e4" + "usageType": "governmentWideReuse" }, - "name": "Stata Code for Finding the Optimal Alpha for Several Statistical Tests", - "description": "Two main types of errors occur in statistical hypothesis testing: type I errors reject a default hypothesis when it is actually correct, and type II errors fail to reject the default hypothesis when it is incorrect. The probability of type I errors is conventionally denoted as alpha, while the probability of type II errors is conventionally denoted as beta. The NASA code developed in this effort calculates the optimal alpha in Stata statistical software for several versions of statistical hypothesis tests.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25722-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62e4" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Two main types of errors occur in statistical hypothesis testing: type I errors reject a default hypothesis when it is actually correct, and type II errors fail to reject the default hypothesis when it is incorrect. The probability of type I errors is conventionally denoted as alpha, while the probability of type II errors is conventionally denoted as beta. The NASA code developed in this effort calculates the optimal alpha in Stata statistical software for several versions of statistical hypothesis tests.", "identifier": "MSC-25682-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25682-1", + "laborHours": 0, + "name": "Stata Code for Finding the Optimal Alpha for Several Statistical Tests", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62e5" + "usageType": "governmentWideReuse" }, - "name": "Code for Finding the Argmin and Argmax of a Data Variable in Stata Statistical Software", - "description": "This technology is used to find the argmin and argmax of a data variable within a Stata data set. The argmin and argmax in this case are the observation numbers at which the data variable achieves its minimum and maximum values (rather than the values themselves). Besides calculating and returning the argmin and argmax (i.e., observation number), the code returns the minimum and maximum values for reference, and, upon request, returns the values of other data variables at the same observation numbers.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25682-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62e6" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Space Packetized Telemetry System (SPoTS) is a real-time telemetry viewer. Display screens are built using a custom display builder with telemetry data fields, plot objects, data widgets, and standard objects. Measurement IDs are loaded from XTCE files.", + "identifier": "MSC-25183-1", + "laborHours": 0, + "name": "Space Packetized Telemetry System (SPoTS)", "organization": "JSC", - "identifier": "MSC-25718-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25718-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62e6" + "usageType": "governmentWideReuse" }, - "name": "Space Packetized Telemetry System (SPoTS)", - "description": "The Space Packetized Telemetry System (SPoTS) is a real-time telemetry viewer. Display screens are built using a custom display builder with telemetry data fields, plot objects, data widgets, and standard objects. Measurement IDs are loaded from XTCE files.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25183-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62e7" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "ISPATOM is a generic computational software program (comps). Most comps that are run in the NASA Mission Control Center (MCC) must be defined and hard-coded into C or some other programming language. ISPATOM runs on the MCC Linux workstations and can run any computations that can be represented as a mathematical equation without prior configuration. An equation or several equations are simply entered on the command line, the values are calculated, the computed values are saved in output symbols, and the output symbols are published.", + "identifier": "MSC-25714-1", + "laborHours": 0, + "name": "Information Sharing Protocol Advanced Tool of Math (ISPATOM), Version 02.03.07", "organization": "JSC", - "identifier": "MSC-25183-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25183-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62e7" + "usageType": "governmentWideReuse" }, - "name": "Information Sharing Protocol Advanced Tool of Math (ISPATOM), Version 02.03.07", - "description": "ISPATOM is a generic computational software program (comps). Most comps that are run in the NASA Mission Control Center (MCC) must be defined and hard-coded into C or some other programming language. ISPATOM runs on the MCC Linux workstations and can run any computations that can be represented as a mathematical equation without prior configuration. An equation or several equations are simply entered on the command line, the values are calculated, the computed values are saved in output symbols, and the output symbols are published.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25714-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62e5" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology is used to find the argmin and argmax of a data variable within a Stata data set. The argmin and argmax in this case are the observation numbers at which the data variable achieves its minimum and maximum values (rather than the values themselves). Besides calculating and returning the argmin and argmax (i.e., observation number), the code returns the minimum and maximum values for reference, and, upon request, returns the values of other data variables at the same observation numbers.", + "identifier": "MSC-25718-1", + "laborHours": 0, + "name": "Code for Finding the Argmin and Argmax of a Data Variable in Stata Statistical Software", "organization": "JSC", - "identifier": "MSC-25714-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25714-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62e8" + "usageType": "governmentWideReuse" }, - "name": "functional Availability Simulation Tool Enhanced Release (fASTER)", - "description": "fASTER is a Monte Carlo simulation tool that assists the International Space Station (ISS) Program with determining logistics support resources by simulating a multitude of different operational scenarios of the ISS configuration (during and following assembly). This allows for the impacts of complex program resource restrictions and constraints (e.g., crew maintenance time, carrier upmass capability, and sparing postulate) to be assessed and reported.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25718-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62e9" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology enables onboard crewmembers to receive more effective training during regularly scheduled emergency drills onboard the ISS.", + "identifier": "MSC-25520-1", + "laborHours": 0, + "name": "International Space Station (ISS) Onboard Emergency Simulator Software", "organization": "JSC", - "identifier": "MSC-24823-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24823-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62e9" + "usageType": "governmentWideReuse" }, - "name": "International Space Station (ISS) Onboard Emergency Simulator Software", - "description": "This technology enables onboard crewmembers to receive more effective training during regularly scheduled emergency drills onboard the ISS.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25520-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62e8" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "fASTER is a Monte Carlo simulation tool that assists the International Space Station (ISS) Program with determining logistics support resources by simulating a multitude of different operational scenarios of the ISS configuration (during and following assembly). This allows for the impacts of complex program resource restrictions and constraints (e.g., crew maintenance time, carrier upmass capability, and sparing postulate) to be assessed and reported.", + "identifier": "MSC-24823-1", + "laborHours": 0, + "name": "functional Availability Simulation Tool Enhanced Release (fASTER)", "organization": "JSC", - "identifier": "MSC-25520-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25520-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62ea" - }, - "name": "Space Station Multi-Rigid Body Simulation (SSMRBS)", - "description": "The SSMRBS innovation uses a commercial off-the-shelf software package to generate the equations of motion (EOM) used in a simulation. The EOM generated and solved in the simulation is based on an Order-N algorithm.", + "repositoryURL": "https://software.nasa.gov/software/MSC-24823-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62ea" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The SSMRBS innovation uses a commercial off-the-shelf software package to generate the equations of motion (EOM) used in a simulation. The EOM generated and solved in the simulation is based on an Order-N algorithm.", "identifier": "MSC-25738-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25738-1", + "laborHours": 0, + "name": "Space Station Multi-Rigid Body Simulation (SSMRBS)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62eb" + "usageType": "governmentWideReuse" }, - "name": "SOLAR-A Rapid International Space Station (ISS) Power Availability Simulator", - "description": "SOLAR is a Java-based tool that leverages commercial off-the-shelf software (Satellite Toolkit) and an existing ISS electrical power system model (SPEED) to rapidly perform thousands of power availability simulations.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25738-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", - "Electronics and Electrical Power" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62ec" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "ARGOS provides a simulated environment to test robotic systems and humans in reduced gravity, including microgravity and lunar and Martian environments. Generation 1 of the technology repurposed a commercial off-the-shelf load management system as a proof of concept. Generation 2 utilizes a fully custom design with expanded system capabilities for speed and load capacity.", + "identifier": "MSC-25394-1", + "laborHours": 0, + "name": "Active-Response Gravity Offload System (ARGOS Horizontal Software)", "organization": "JSC", - "identifier": "MSC-24623-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24623-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62ec" + "usageType": "governmentWideReuse" }, - "name": "Active-Response Gravity Offload System (ARGOS Horizontal Software)", - "description": "ARGOS provides a simulated environment to test robotic systems and humans in reduced gravity, including microgravity and lunar and Martian environments. Generation 1 of the technology repurposed a commercial off-the-shelf load management system as a proof of concept. Generation 2 utilizes a fully custom design with expanded system capabilities for speed and load capacity.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25394-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62eb" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "SOLAR is a Java-based tool that leverages commercial off-the-shelf software (Satellite Toolkit) and an existing ISS electrical power system model (SPEED) to rapidly perform thousands of power availability simulations.", + "identifier": "MSC-24623-1", + "laborHours": 0, + "name": "SOLAR-A Rapid International Space Station (ISS) Power Availability Simulator", "organization": "JSC", - "identifier": "MSC-25394-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25394-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24623-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Electronics and Electrical Power" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62ed" }, - "name": "Global Positioning System (GPS) Receiver Analysis Tool (RAT)", - "description": "RAT reads telemetry information from a GPS receiver and determines the receiver's performance. As a telemetry-input file is read, an analyst can see the plotted satellites and telemetry information change in animated form. The analyst can halt the animation and generate high-quality PostScript images of the plot suitable for importing into post-flight reports.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "RAT reads telemetry information from a GPS receiver and determines the receiver's performance. As a telemetry-input file is read, an analyst can see the plotted satellites and telemetry information change in animated form. The analyst can halt the animation and generate high-quality PostScript images of the plot suitable for importing into post-flight reports.", "identifier": "MSC-24649-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24649-1", + "laborHours": 0, + "name": "Global Positioning System (GPS) Receiver Analysis Tool (RAT)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62ee" + "usageType": "governmentWideReuse" }, - "name": "Flexible Docking Tool for Real-Time, Planning Missions", - "description": "This flexible software tool improves rendezvous planning for a vehicle visiting the International Space Station (ISS). Features include a telemetry processing function, a relative motion function, a targeting function, a vector view, and two- and three-dimensional graphics. The technology's modeling capability ensures that a vehicle stays within desired coordinates.", + "repositoryURL": "https://software.nasa.gov/software/MSC-24649-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62f0" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "DEBRIS provides the rapid and accurate C-band/X-band radar analysis to assess debris-related threats posed to ongoing missions. Jointly developed by Johnson Space Center (JSC) and the United States Air Force (USAF), the system is composed of two applications: the primary DEBRIS tool, which observes the initial 150 seconds of a flight, and the Automated Radar Debris Examination Tool (ARDENT), which observes the flight time segment between 150 and 480 seconds.", + "identifier": "MSC-24827-1", + "laborHours": 0, + "name": "Debris Examination Using Ballistic and Radar-Integrated Software (DEBRIS)", "organization": "JSC", - "identifier": "MSC-24801-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24801-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62ef" + "usageType": "governmentWideReuse" }, - "name": "Multi-Purpose Attitude and Pointing System (MAPS), Version 7.1", - "description": "The Multipurpose Attitude and Pointing System (MAPS) has been used for attitude development and line-of-sight analysis since 1991. 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USA Design Engineering manned the facility and used this software to monitor the Solid Rocket Booster subsystems (i.e., Range Safety, Electrical and Instrumentation, and Thrust Vector Control) using a data feed from the main firing room.", + "repositoryURL": "https://software.nasa.gov/software/MSC-24341-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62fc" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Booster Launch Operations Center provided NASA with real-time monitoring of the Space Shuttle's integrated testing while it was in the Vehicle Assembly Building (VAB) or on the launch pad. 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By significantly increasing throughput, the software has the ability to provide real-time assessments. Adaptive analysis methods have been incorporated into the technology to provide modal analyses at specified points of a structure's life (e.g. loading, unloading, and dwells), thereby increasing the tool's utility and ease of use for acoustic emission testing.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25367-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62fd" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "NASA has integrated industry-standard and new, novel analysis methods for assessing the structural health of composite overwrapped pressure vessels (COPV). By significantly increasing throughput, the software has the ability to provide real-time assessments. Adaptive analysis methods have been incorporated into the technology to provide modal analyses at specified points of a structure's life (e.g. loading, unloading, and dwells), thereby increasing the tool's utility and ease of use for acoustic emission testing.", "identifier": "MSC-25421-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25421-1", + "laborHours": 0, + "name": "Development of Automated Structural Health Monitoring and Qualification Methods and Software for Composite Overwrapped Pressure Vessels", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25421-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb62fe" }, - "name": "Software Applications for the Control and Management of the Amine Swingbed Experiment", - "description": "This disclosure covers the following software components: the Swingbed Loader Computer Software Configuration Item (CSCI), the Swingbed Control Module (CSCI), and the Swingbed Ground Controller. As a whole, the Amine Swingbed Experiment is investigating the removal of carbon dioxide from the International Space Station breathing environment via a system of a vacuum-regenerated amine pressure swing absorption reaction beds. Please visit the following URL for additional information: http://www.nasa.gov/mission_pages/station/research/experiments/Amine_Swingbed.html", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This disclosure covers the following software components: the Swingbed Loader Computer Software Configuration Item (CSCI), the Swingbed Control Module (CSCI), and the Swingbed Ground Controller. As a whole, the Amine Swingbed Experiment is investigating the removal of carbon dioxide from the International Space Station breathing environment via a system of a vacuum-regenerated amine pressure swing absorption reaction beds. Please visit the following URL for additional information: http://www.nasa.gov/mission_pages/station/research/experiments/Amine_Swingbed.html", "identifier": "MSC-25526-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25526-1", + "laborHours": 0, + "name": "Software Applications for the Control and Management of the Amine Swingbed Experiment", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb62ff" + "usageType": "governmentWideReuse" }, - "name": "Alternative Flight Software Trigger Paradigm-Applying Multivariate Logistic Regression to Sense Trigger Conditions Using Inaccurate or Scarce Information", - "description": "Helping Guidance, Navigation, and Control (GN&C) engineers to develop robust flight software tools, this innovation allows an autonomous vehicle to trigger certain actions.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25526-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb62ff" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Helping Guidance, Navigation, and Control (GN&C) engineers to develop robust flight software tools, this innovation allows an autonomous vehicle to trigger certain actions.", "identifier": "MSC-25684-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25684-1", + "laborHours": 0, + "name": "Alternative Flight Software Trigger Paradigm-Applying Multivariate Logistic Regression to Sense Trigger Conditions Using Inaccurate or Scarce Information", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6300" + "usageType": "governmentWideReuse" }, - "name": "Multiple-Force Vector and Field Detection and Measurement Through a Flexible Medium", - "description": "This innovation can be used as a tactile human-machine input device or as a tool to improve the grasping quality of robot manipulators. Incipient slip, sample stiffness, and tangential force vector parameters are extracted and used in high-level control algorithms to drive a robotic arm.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25684-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6300" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This innovation can be used as a tactile human-machine input device or as a tool to improve the grasping quality of robot manipulators. Incipient slip, sample stiffness, and tangential force vector parameters are extracted and used in high-level control algorithms to drive a robotic arm.", "identifier": "MSC-25704-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25704-1", + "laborHours": 0, + "name": "Multiple-Force Vector and Field Detection and Measurement Through a Flexible Medium", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6301" + "usageType": "governmentWideReuse" }, - "name": "International Space Station (ISS) Robotics Planning System (RPS) Software Suite", - "description": "The RPS suite is used by Robotics Flight Controllers to show graphical representations of ISS robotics arm activities following flights. The technology is also used as an independent graphical simulation for pre-flight robotics activities.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25704-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Vehicle Management (Space/Air/Ground)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6301" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The RPS suite is used by Robotics Flight Controllers to show graphical representations of ISS robotics arm activities following flights. The technology is also used as an independent graphical simulation for pre-flight robotics activities.", "identifier": "MSC-25639-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25639-1", + "laborHours": 0, + "name": "International Space Station (ISS) Robotics Planning System (RPS) Software Suite", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6302" + "usageType": "governmentWideReuse" }, - "name": "Station/Orbiter Multibody Berthing/Docking Analysis Tool (SOMBAT)", - "description": "SOMBAT is a multibody dynamics and control system simulation tool. It provides an integrated software environment to perform kinematic and dynamics analysis of space structures and robotic manipulators, including their control elements. The multibody system can consist of an arbitrary number of rigid and flexible bodies in an open-loop topology. The dynamics equations of a given system are generated in a computationally efficient and optimized form in SOMBAT using a symbolic code generator.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25639-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", - "Design and Integration Tools" - ], + "Vehicle Management (Space/Air/Ground)" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6303" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The APLNav system provides a simple, cost-effective, reliable, and proven optical terrain navigation tool for planetary landing applications. Passive optical digital cameras are used to create surface images that are rendered against a digital elevation model. The system is derived from the digital scene-mapping and area correlation navigation method that has been employed by cruise missiles for decades.", + "identifier": "MSC-24721-1", + "laborHours": 0, + "name": "Autonomous Precision Landing Navigation (APLNav) System", "organization": "JSC", - "identifier": "MSC-25528-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25528-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6303" + "usageType": "governmentWideReuse" }, - "name": "Autonomous Precision Landing Navigation (APLNav) System", - "description": "The APLNav system provides a simple, cost-effective, reliable, and proven optical terrain navigation tool for planetary landing applications. Passive optical digital cameras are used to create surface images that are rendered against a digital elevation model. The system is derived from the digital scene-mapping and area correlation navigation method that has been employed by cruise missiles for decades.", + "repositoryURL": "https://software.nasa.gov/software/MSC-24721-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6302" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "SOMBAT is a multibody dynamics and control system simulation tool. It provides an integrated software environment to perform kinematic and dynamics analysis of space structures and robotic manipulators, including their control elements. The multibody system can consist of an arbitrary number of rigid and flexible bodies in an open-loop topology. The dynamics equations of a given system are generated in a computationally efficient and optimized form in SOMBAT using a symbolic code generator.", + "identifier": "MSC-25528-1", + "laborHours": 0, + "name": "Station/Orbiter Multibody Berthing/Docking Analysis Tool (SOMBAT)", "organization": "JSC", - "identifier": "MSC-24721-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24721-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25528-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6304" }, - "name": "Application Program Interface (API) for the Orion Aerodynamics Database (Cap Aero)", - "description": "Programmed in C, CAP Aero was developed to provide software developers an easily implemented, fully self-contained method for accessing the Crew Exploration Vehicle's Aerodynamic Database. No special functions (file read/write, table lookup, etc.) are required on the host system other than those included with a standard ANSI C installation. CAP Aero reads files of aero-data tables formatted as specified in the document, \"Aerotab Data File Format.\" The aerodynamic coefficients and forces calculated by the program follow the equations cited in the document, \"Formulation of the Orion Aerodynamic Database.\"", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Programmed in C, CAP Aero was developed to provide software developers an easily implemented, fully self-contained method for accessing the Crew Exploration Vehicle's Aerodynamic Database. No special functions (file read/write, table lookup, etc.) are required on the host system other than those included with a standard ANSI C installation. CAP Aero reads files of aero-data tables formatted as specified in the document, \"Aerotab Data File Format.\" The aerodynamic coefficients and forces calculated by the program follow the equations cited in the document, \"Formulation of the Orion Aerodynamic Database.\"", "identifier": "MSC-24819-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24819-1", + "laborHours": 0, + "name": "Application Program Interface (API) for the Orion Aerodynamics Database (Cap Aero)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24819-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6305" }, - "name": "Onboard Short-Term Plan Viewer (OSTPV), Version 4.0", - "description": "Innovators at NASA Johnson Space Center have developed a Web-based application to support the International Space Station (ISS) program's real-time operations. The Onboard Short Term Plan Viewer (OSTPV) contains the integrated ISS mission schedule in use at NASA Mission Control Center (MCC) and onboard the ISS. OSTVP displays all ISS activities (onboard and on the ground) in an integrated timeline.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Innovators at NASA Johnson Space Center have developed a Web-based application to support the International Space Station (ISS) program's real-time operations. The Onboard Short Term Plan Viewer (OSTPV) contains the integrated ISS mission schedule in use at NASA Mission Control Center (MCC) and onboard the ISS. OSTVP displays all ISS activities (onboard and on the ground) in an integrated timeline.", "identifier": "MSC-24832-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24832-1", + "laborHours": 0, + "name": "Onboard Short-Term Plan Viewer (OSTPV), Version 4.0", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24832-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6306" }, - "name": "Trick High-Level Architecture (HLA) Framework for Facilitating IEEE 1516 Simulation Integration", - "description": "This framework removes the complexity of adhering to the Institute of Electrical and Electronics Engineers (IEEE) 1516-2000 High-Level Architecture (HLA) standards for simulation interoperability. The framework is data driven and includes a simple application programming interface (API), making it relatively easy to enhance an existing Trick simulation into a distributed simulation.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This framework removes the complexity of adhering to the Institute of Electrical and Electronics Engineers (IEEE) 1516-2000 High-Level Architecture (HLA) standards for simulation interoperability. The framework is data driven and includes a simple application programming interface (API), making it relatively easy to enhance an existing Trick simulation into a distributed simulation.", "identifier": "MSC-24544-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24544-1", + "laborHours": 0, + "name": "Trick High-Level Architecture (HLA) Framework for Facilitating IEEE 1516 Simulation Integration", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6307" + "usageType": "governmentWideReuse" }, - "name": "FCOD Rapid Prototyping Lab Generic Display Software (FCOD Generic Displays)", - "description": "This software permits the user to interact with and understand the user interface for a generic \"glass\" spacecraft cockpit. Based on standards developed by NASA for the Orion spacecraft, it simulates various phases of flight and various malfunction situations to help users understand operating a spacecraft exclusively through computer screens instead of a large number of physical switches, gauges, and other controls.", + "repositoryURL": "https://software.nasa.gov/software/MSC-24544-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6307" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software permits the user to interact with and understand the user interface for a generic \"glass\" spacecraft cockpit. Based on standards developed by NASA for the Orion spacecraft, it simulates various phases of flight and various malfunction situations to help users understand operating a spacecraft exclusively through computer screens instead of a large number of physical switches, gauges, and other controls.", "identifier": "MSC-25185-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25185-1", + "laborHours": 0, + "name": "FCOD Rapid Prototyping Lab Generic Display Software (FCOD Generic Displays)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25185-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6308" }, - "name": "Gaseous Nitrogen (GN2) Orifice Mass-Flow Calculator", - "description": "This calculator has been used to determine GN2 high-pressure tank-source depletion rates for the Space Shuttle Orbiter Water Spray Boiler (WSB), and it has also been used to gauge the ability of GN2 consumables to support APU lubrication cooling during entry.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Propulsion" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This calculator has been used to determine GN2 high-pressure tank-source depletion rates for the Space Shuttle Orbiter Water Spray Boiler (WSB), and it has also been used to gauge the ability of GN2 consumables to support APU lubrication cooling during entry.", "identifier": "MSC-24873-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24873-1", + "laborHours": 0, + "name": "Gaseous Nitrogen (GN2) Orifice Mass-Flow Calculator", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24873-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Propulsion" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6309" }, - "name": "Configurable Real-Time Analysis System (CRANS) Software Program, Version 7", - "description": "CRANS provides status of an avionics system utilizing an expert system for standard failure and correction options for potential failures. The program provides a means of representing logically interconnected items in a matrix format.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "CRANS provides status of an avionics system utilizing an expert system for standard failure and correction options for potential failures. The program provides a means of representing logically interconnected items in a matrix format.", "identifier": "MSC-25673-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25673-1", + "laborHours": 0, + "name": "Configurable Real-Time Analysis System (CRANS) Software Program, Version 7", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25673-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb630a" }, - "name": "Positional Login (POSLOGIN)", - "description": "In the Mission Control Center at Johnson Space Center, the operational support of International Space Station missions requires around-the-clock monitoring by flight controllers and support staff. POSLOGIN has been developed to ensure that processes remain in place and continue to be executed during shift changes.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "In the Mission Control Center at Johnson Space Center, the operational support of International Space Station missions requires around-the-clock monitoring by flight controllers and support staff. POSLOGIN has been developed to ensure that processes remain in place and continue to be executed during shift changes.", "identifier": "MSC-25483-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25483-1", + "laborHours": 0, + "name": "Positional Login (POSLOGIN)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25483-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb630b" }, - "name": "Space Shuttle Ascent/Entry Trainer (AET), Version 5", - "description": "Version 5 of the Space Shuttle Ascent/Entry Trainer (AET) is a simulation software package that models NASA's Space Shuttle in both ascent and entry scenarios in order to train astronauts. Functionally, the AET handles operator inputs to the hand controllers and to virtual switches on the computer monitor, and it provides feedback to the operator via the computer monitor in the form of simulated out-the-window graphics and emulated display and control panels.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Version 5 of the Space Shuttle Ascent/Entry Trainer (AET) is a simulation software package that models NASA's Space Shuttle in both ascent and entry scenarios in order to train astronauts. Functionally, the AET handles operator inputs to the hand controllers and to virtual switches on the computer monitor, and it provides feedback to the operator via the computer monitor in the form of simulated out-the-window graphics and emulated display and control panels.", "identifier": "MSC-25252-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25252-1", + "laborHours": 0, + "name": "Space Shuttle Ascent/Entry Trainer (AET), Version 5", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25252-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb630c" }, - "name": "Orion Guidance, Navigation & Control Flight Software", - "description": "The Orion Crew Exploration Vehicle's onboard Guidance, Navigation & Control (GN&C) flight software has been developed to a class-A, human-spaceflight-ready standard. The technology uses a MATLAB/Simulink tool suite to embrace a model-based development approach.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Orion Crew Exploration Vehicle's onboard Guidance, Navigation & Control (GN&C) flight software has been developed to a class-A, human-spaceflight-ready standard. The technology uses a MATLAB/Simulink tool suite to embrace a model-based development approach.", "identifier": "MSC-25615-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25615-1", + "laborHours": 0, + "name": "Orion Guidance, Navigation & Control Flight Software", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25615-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb630d" }, - "name": "Visiting Vehicle Ground Trajectory Tool", - "description": "This targeting tool provided the ability to perform planning and real-time operations for the visiting International Space Station (ISS) vehicle group.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release ", - "Operations" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This targeting tool provided the ability to perform planning and real-time operations for the visiting International Space Station (ISS) vehicle group.", "identifier": "MSC-24763-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24763-1", + "laborHours": 0, + "name": "Visiting Vehicle Ground Trajectory Tool", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24763-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release ", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb630e" }, - "name": "Decelerator System Simulation (DSS)", - "description": "DSS software predicts and analyzes the dynamics of a load of cargo dropped with parachutes from an aircraft, from the first motion in the aircraft until the payload reaches the ground. The system, which comprises a Microsoft Windows version paired with Excel, is easier to use than the UNIX system-based version.", - "tags": [ - "NASA", - "JSC", - "U.S. Release Only", - "Design and Integration Tools" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "DSS software predicts and analyzes the dynamics of a load of cargo dropped with parachutes from an aircraft, from the first motion in the aircraft until the payload reaches the ground. The system, which comprises a Microsoft Windows version paired with Excel, is easier to use than the UNIX system-based version.", "identifier": "MSC-24014-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24014-1", + "laborHours": 0, + "name": "Decelerator System Simulation (DSS)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24014-1", + "tags": [ + "NASA", + "JSC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb630f" }, - "name": "Semantic Text Mining and Annotation for Information Extraction and Trend Analysis Tool (STAT)", - "description": "The Semantic Trend Analysis Tool uses linguistic analysis software and an ontology to extract new dimensions in data records that contain natural language text fields. Text fields in problem report data records (e.g., discrepancy reports, problem reports, corrective-action reports, and software change reports) might contain information that is critical to finding trends and groupings of recurring problems. STAT overcomes problems with scoping by linking up meaningful phrases that could be separated by text (e.g., \"not aligned\" versus \"not completely aligned\"). STAT's use of hierarchical ontologies overcomes the limitations of data codes, which are flat, closed, and have small sets of values that are often difficult to interpret. The ontology organizes aerospace terminology in hierarchies of types of problems, properties, objects, and functions. The tool identifies and tags types of problems and equipment mentioned in text fields, thereby providing new data files for record keeping. These new data files support text mining and clustering, report generation, browsing, and search at various levels of abstraction.", - "tags": [ - "NASA", - "JSC", - "U.S. Release Only", - "Data Servers Processing and Handling" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Semantic Trend Analysis Tool uses linguistic analysis software and an ontology to extract new dimensions in data records that contain natural language text fields. Text fields in problem report data records (e.g., discrepancy reports, problem reports, corrective-action reports, and software change reports) might contain information that is critical to finding trends and groupings of recurring problems. STAT overcomes problems with scoping by linking up meaningful phrases that could be separated by text (e.g., \"not aligned\" versus \"not completely aligned\"). STAT's use of hierarchical ontologies overcomes the limitations of data codes, which are flat, closed, and have small sets of values that are often difficult to interpret. The ontology organizes aerospace terminology in hierarchies of types of problems, properties, objects, and functions. The tool identifies and tags types of problems and equipment mentioned in text fields, thereby providing new data files for record keeping. These new data files support text mining and clustering, report generation, browsing, and search at various levels of abstraction.", "identifier": "MSC-24614-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24614-1", + "laborHours": 0, + "name": "Semantic Text Mining and Annotation for Information Extraction and Trend Analysis Tool (STAT)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24614-1", + "tags": [ + "NASA", + "JSC", + "U.S. Release Only", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6310" }, - "name": "DSMC Analysis Code (DAC) Software for Simulating Rarefied Gas Dynamic Environments", - "description": "Innovators at NASA's Johnson Space Center have developed software that is an easy-to-use implementation of the Direct Simulation Monte Carlo (DSMC) method that can be applied to a broad base of low-density flow problems. Its built-in flexibility, automation, and intuitiveness, combined with the potential of its parallel processing capabilities, provides an easy-to-use, high-performance solution for analyzing rarefied flows.", - "tags": [ - "NASA", - "JSC", - "U.S. Release Only", - "Design and Integration Tools" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Innovators at NASA's Johnson Space Center have developed software that is an easy-to-use implementation of the Direct Simulation Monte Carlo (DSMC) method that can be applied to a broad base of low-density flow problems. Its built-in flexibility, automation, and intuitiveness, combined with the potential of its parallel processing capabilities, provides an easy-to-use, high-performance solution for analyzing rarefied flows.", "identifier": "MSC-23445-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-23445-1", + "laborHours": 0, + "name": "DSMC Analysis Code (DAC) Software for Simulating Rarefied Gas Dynamic Environments", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6311" + "usageType": "governmentWideReuse" }, - "name": "Micrometeoroid and Orbital Debris (MMOD) Shield Ballistic Limit Analysis Program", - "description": "This technology evaluates proposed shield configurations for probability and depth of penetration if hit by orbital debris. The software enables a user to calculate preliminary dimensions of a shield configuration (thickness, density, and spacing) and then analyze the performance of the user-defined shield configuration over a range of relevant in-orbit impact conditions.", + "repositoryURL": "https://software.nasa.gov/software/MSC-23445-1", "tags": [ "NASA", "JSC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6311" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology evaluates proposed shield configurations for probability and depth of penetration if hit by orbital debris. The software enables a user to calculate preliminary dimensions of a shield configuration (thickness, density, and spacing) and then analyze the performance of the user-defined shield configuration over a range of relevant in-orbit impact conditions.", "identifier": "MSC-24582-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24582-1", + "laborHours": 0, + "name": "Micrometeoroid and Orbital Debris (MMOD) Shield Ballistic Limit Analysis Program", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6312" + } + ], + "usageType": "governmentWideReuse" }, - "name": "eProc Electronic Procedure System for Spacecraft Glass Cockpits (eProc System)", - "description": "Crew members have the ability to perform all display tasks manually or with electronic procedures. This electronic procedure system, referred to as eProc, is designed as a powerful alternative to reduce crew workload. eProc assists crew members by highlighting vehicle states on a display and cueing up appropriate displays, pop-ups, and commands. eProc is also linked to fault messages, so that crew members can quickly access procedures to any message that appears on the fault summary or log displays.", + "repositoryURL": "https://software.nasa.gov/software/MSC-24582-1", "tags": [ "NASA", "JSC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6312" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Crew members have the ability to perform all display tasks manually or with electronic procedures. This electronic procedure system, referred to as eProc, is designed as a powerful alternative to reduce crew workload. eProc assists crew members by highlighting vehicle states on a display and cueing up appropriate displays, pop-ups, and commands. eProc is also linked to fault messages, so that crew members can quickly access procedures to any message that appears on the fault summary or log displays.", "identifier": "MSC-25186-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25186-1", + "laborHours": 0, + "name": "eProc Electronic Procedure System for Spacecraft Glass Cockpits (eProc System)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25186-1", + "tags": [ + "NASA", + "JSC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6313" }, - "name": "Engineering DOUG Graphics for Exploration (EDGE)", - "description": "EDGE is a real-time 3d graphics rendering package based on the Dynamic On-board Ubiquitous Graphics (DOUG) graphics engine. It combines key elements from graphics software tools developed for Space Shuttle and International Space Station (ISS) programs and adapts them for integration with other engineering simulations and facilities. The tool allows drop-in integration with the NASA Trick Simulation Environment and provides a fusion of 3D graphics and simulation outputs.", - "tags": [ - "NASA", - "JSC", - "General Public Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "EDGE is a real-time 3d graphics rendering package based on the Dynamic On-board Ubiquitous Graphics (DOUG) graphics engine. It combines key elements from graphics software tools developed for Space Shuttle and International Space Station (ISS) programs and adapts them for integration with other engineering simulations and facilities. The tool allows drop-in integration with the NASA Trick Simulation Environment and provides a fusion of 3D graphics and simulation outputs.", "identifier": "MSC-24663-1", - "repositoryURL": "https://software.nasa.gov/featuredsoftware/edge", + "laborHours": 0, + "name": "Engineering DOUG Graphics for Exploration (EDGE)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/featuredsoftware/edge", + "tags": [ + "NASA", + "JSC", + "General Public Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6314" }, - "name": "Tools for Security Planning and Assessment of Risk (TSPAR)", - "description": "The TSPAR software tool provides computer security officials the functionality to create, review, and analyze IT security risk assessment matrices and risk configuration documents.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The TSPAR software tool provides computer security officials the functionality to create, review, and analyze IT security risk assessment matrices and risk configuration documents.", "identifier": "MSC-25492-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25492-1", + "laborHours": 0, + "name": "Tools for Security Planning and Assessment of Risk (TSPAR)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25492-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6315" }, - "name": "Decelerator System Simulation (DSS)", - "description": "Decelerator System Simulation (DSS) is a FORTRAN software tool used to predict the motion of a vehicle coupled to a parachute. Separate equations of motion for the parachute and vehicle are employed. DSS was modified from an existing NASA software program for the Space Shuttle solid rocket booster (SRB) recovery system simulation. Martin Marietta Corp. developed the program, called UD233A, for the NASA Marshall Space Flight Center. DSS was used to study performance of parachute descent of flight test vehicle versions of the NASA Orion space craft. DSS incorporates 6 degrees of translational and rotational motion for both the vehicle and attached parachute, It models the deployment and inflation of the parachute system. DSS has separate aerodynamic and mass properties for both the vehicle and parachute.\r\nDSS is an in-house analysis tool. As such there is little documentation on the modifications made to UD233A to create DSS.\r\n", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Aeronautics" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-24" + }, + "description": "Decelerator System Simulation (DSS) is a FORTRAN software tool used to predict the motion of a vehicle coupled to a parachute. Separate equations of motion for the parachute and vehicle are employed. DSS was modified from an existing NASA software program for the Space Shuttle solid rocket booster (SRB) recovery system simulation. Martin Marietta Corp. developed the program, called UD233A, for the NASA Marshall Space Flight Center. DSS was used to study performance of parachute descent of flight test vehicle versions of the NASA Orion space craft. DSS incorporates 6 degrees of translational and rotational motion for both the vehicle and attached parachute, It models the deployment and inflation of the parachute system. DSS has separate aerodynamic and mass properties for both the vehicle and parachute.\r\nDSS is an in-house analysis tool. As such there is little documentation on the modifications made to UD233A to create DSS.\r\n", "identifier": "MSC-24014-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24014-1", + "laborHours": 0, + "name": "Decelerator System Simulation (DSS)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-24" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24014-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6316" }, - "name": "Orbital Debris Engineering Model (ORDEM), Version 3", - "description": "ORDEM offers flux as a function of debris size and year. The technology can be operated in spacecraft mode or telescope mode. An upgraded user interface uses project-oriented organization and provides graphical representations of numerous output data products.", - "tags": [ - "NASA", - "JSC", - "General Public Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "ORDEM offers flux as a function of debris size and year. The technology can be operated in spacecraft mode or telescope mode. An upgraded user interface uses project-oriented organization and provides graphical representations of numerous output data products.", "identifier": "MSC-25457-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25457-1", + "laborHours": 0, + "name": "Orbital Debris Engineering Model (ORDEM), Version 3", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25457-1", + "tags": [ + "NASA", + "JSC", + "General Public Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6317" }, - "name": "Failure Modes and Effects Analysis Tool (FMEA)", - "description": "The scope of this project is to develop a prototype failure analysis software tool. The tool models a system's components, their connective relationships, and functions in order to assist in Failure Modes and Effect analysis (FMEA) early in the design lifecycle.\r\n\r\nThe purpose of the tool is to semi-automatically generate a model with functions and failure modes to support FMEA. This will be accomplished by:\r\nA graphical component-connection model is created by arranging and connecting components selected from the Master Equipment list.\r\n\r\nFor each component, a pick-list user interface asks a few questions to narrow down potential failure modes. This uses a failure mode library in MS Excel based on standard failure modes and associated component functions and features.\r\n\r\nPick-lists for types failure mode causes and immediate effects help the analyst complete initial draft FMEA worksheets, which link to the components in the model.\r\n\r\nThe graphical model, which is marked with redundant components and paths, shows upstream/downstream dependencies, to help the analyst add further effects and criticality to the FMEA worksheets.\r\n\r\nThis tool is innovative because it saves analysis time and provides a standardized and systematic approach in failure analysis, thereby enabling risk mitigation early in system design. There are also potential benefits of tool use during the operations phase to identify the cause(s) of a fault or failure. \r\n", - "tags": [ - "NASA", - "JSC", - "General Public Release", - "Design and Integration Tools" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-6" + }, + "description": "The scope of this project is to develop a prototype failure analysis software tool. The tool models a system's components, their connective relationships, and functions in order to assist in Failure Modes and Effect analysis (FMEA) early in the design lifecycle.\r\n\r\nThe purpose of the tool is to semi-automatically generate a model with functions and failure modes to support FMEA. This will be accomplished by:\r\nA graphical component-connection model is created by arranging and connecting components selected from the Master Equipment list.\r\n\r\nFor each component, a pick-list user interface asks a few questions to narrow down potential failure modes. This uses a failure mode library in MS Excel based on standard failure modes and associated component functions and features.\r\n\r\nPick-lists for types failure mode causes and immediate effects help the analyst complete initial draft FMEA worksheets, which link to the components in the model.\r\n\r\nThe graphical model, which is marked with redundant components and paths, shows upstream/downstream dependencies, to help the analyst add further effects and criticality to the FMEA worksheets.\r\n\r\nThis tool is innovative because it saves analysis time and provides a standardized and systematic approach in failure analysis, thereby enabling risk mitigation early in system design. There are also potential benefits of tool use during the operations phase to identify the cause(s) of a fault or failure. \r\n", "identifier": "MSC-25379-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25379-1", + "laborHours": 0, + "name": "Failure Modes and Effects Analysis Tool (FMEA)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-6" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25379-1", + "tags": [ + "NASA", + "JSC", + "General Public Release", + "Design and Integration Tools" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6318" + "$oid": "5a3a9b78da833f1e40fb6319" }, - "name": "Power Quality Impedance Tester Software", - "description": "The Power Quality Impedance Tester Software and the Frequency-Response Analyzer (FRA) combined deliver a complete frequency-response measurement system. The software runs on any personal computer using Microsoft Windows XP/2007. Data, displayed on a graphical user interface, can be saved to a text file.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Electronics and Electrical Power" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "STAMPS simulates either three- or six-degrees-of-freedom cases for all shuttle flight phases using translated HAL flight software or generic GN&C models. Single or multiple trajectories can be simulated for use in optimization and dispersion analysis. The technology includes math models for the vehicle and environment and a C version of shuttle onboard flight software.", + "identifier": "MSC-24958-1", + "laborHours": 0, + "name": "Spacecraft Trajectory Analysis and Mission Planning Simulation (STAMPS) Software", "organization": "JSC", - "identifier": "MSC-25353-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25353-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6319" + "usageType": "governmentWideReuse" }, - "name": "Spacecraft Trajectory Analysis and Mission Planning Simulation (STAMPS) Software", - "description": "STAMPS simulates either three- or six-degrees-of-freedom cases for all shuttle flight phases using translated HAL flight software or generic GN&C models. Single or multiple trajectories can be simulated for use in optimization and dispersion analysis. The technology includes math models for the vehicle and environment and a C version of shuttle onboard flight software.", + "repositoryURL": "https://software.nasa.gov/software/MSC-24958-1", "tags": [ "NASA", "JSC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6318" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Power Quality Impedance Tester Software and the Frequency-Response Analyzer (FRA) combined deliver a complete frequency-response measurement system. The software runs on any personal computer using Microsoft Windows XP/2007. Data, displayed on a graphical user interface, can be saved to a text file.", + "identifier": "MSC-25353-1", + "laborHours": 0, + "name": "Power Quality Impedance Tester Software", "organization": "JSC", - "identifier": "MSC-24958-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24958-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb631a" + "usageType": "governmentWideReuse" }, - "name": "InSight Software", - "description": "The InSight application is designed to execute on Windows XP or later platforms. Its basic premise is to provide a common command and data display graphical user interface (GUI) for data streams originating from an extensible set of data sources. A data source may be either a physical interface type (i.e., serial or GPIB buses) or a virtual interface represented by an application programming interface (API) provided by a vendor that abstracts the underlying physical interface (i.e., Trick simulations using the Trick API or NIDAQmx).\r\nMultiple devices/instruments under test (DUT) may be connected to a single data source depending upon what the underlying operating system interface (OSI) media layers allow. Each data source type is abstracted to the GUI through a dynamic link library (DLL) that provides a common programming interface. Multiple data sources of each type are allowed. By authoring a new DLL that adheres to the InSight API, new data source types can be added.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25353-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], + "Electronics and Electrical Power" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb631b" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Designed for use on the iPad 2 (or newer technology), iSHORT allows users to capture text, audio, video, and photographs within a single interface. The app allows users to indicate the priority of their observation (no change needed, nice to have, or must be addressed); provides a list of memory joggers to assist users in recalling items of interest related to human factors and habitability; and allows for simple report submission within the app.", + "identifier": "MSC-25736-1", + "laborHours": 0, + "name": "Space Habitability Observation Reporting Tool (iSHORT)", "organization": "JSC", - "identifier": "MSC-25376-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25376-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-11-13" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb631b" + "usageType": "governmentWideReuse" }, - "name": "Space Habitability Observation Reporting Tool (iSHORT)", - "description": "Designed for use on the iPad 2 (or newer technology), iSHORT allows users to capture text, audio, video, and photographs within a single interface. The app allows users to indicate the priority of their observation (no change needed, nice to have, or must be addressed); provides a list of memory joggers to assist users in recalling items of interest related to human factors and habitability; and allows for simple report submission within the app.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25736-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb631a" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-11-13" + }, + "description": "The InSight application is designed to execute on Windows XP or later platforms. Its basic premise is to provide a common command and data display graphical user interface (GUI) for data streams originating from an extensible set of data sources. A data source may be either a physical interface type (i.e., serial or GPIB buses) or a virtual interface represented by an application programming interface (API) provided by a vendor that abstracts the underlying physical interface (i.e., Trick simulations using the Trick API or NIDAQmx).\r\nMultiple devices/instruments under test (DUT) may be connected to a single data source depending upon what the underlying operating system interface (OSI) media layers allow. Each data source type is abstracted to the GUI through a dynamic link library (DLL) that provides a common programming interface. Multiple data sources of each type are allowed. By authoring a new DLL that adheres to the InSight API, new data source types can be added.", + "identifier": "MSC-25376-1", + "laborHours": 0, + "name": "InSight Software", "organization": "JSC", - "identifier": "MSC-25736-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25736-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb631c" + "usageType": "governmentWideReuse" }, - "name": "CriticalThreads-A Low-Level Parallelization Architecture for Critical Applications", - "description": "Critical Threads is alight weight \"pthreading\" application interface that allows software developers to parallelize C++ segments without suffering the normally unavoidable operating system level context switching overhead.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25376-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb631c" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Critical Threads is alight weight \"pthreading\" application interface that allows software developers to parallelize C++ segments without suffering the normally unavoidable operating system level context switching overhead.", "identifier": "MSC-25719-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25719-1", + "laborHours": 0, + "name": "CriticalThreads-A Low-Level Parallelization Architecture for Critical Applications", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25719-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb631d" }, - "name": "NASA Performance Evaluation Profile (PEP)", - "description": "NASA's Performance Evaluation Profile (PEP) program provides a PC-based method for conducting standardized self-assessments of operational and system safety program processes. PEP features software applications and a modified Management Oversight and Risk Tree (MORT) logic diagram to analyze both the strengths and weaknesses of occupational and system safety programs.", - "tags": [ - "NASA", - "JSC", - "General Public Release", - "Business Systems and Project Management" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "NASA's Performance Evaluation Profile (PEP) program provides a PC-based method for conducting standardized self-assessments of operational and system safety program processes. PEP features software applications and a modified Management Oversight and Risk Tree (MORT) logic diagram to analyze both the strengths and weaknesses of occupational and system safety programs.", "identifier": "MSC-25681-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25681-1", + "laborHours": 0, + "name": "NASA Performance Evaluation Profile (PEP)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25681-1", + "tags": [ + "NASA", + "JSC", + "General Public Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb631e" }, - "name": "Score 3.2 and Subs(3.2, 3.3, 3.4, 3.5, 3.6, 3.7, 3.8)", - "description": "Score is a application used to build and edit timelines with resource and constraint checking capabilities. It allows for statusing of activities, the inclusion of hyperlinks to activities, the ability to check and manipulate constraints and resource usage by activities.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-1" + }, + "description": "Score is a application used to build and edit timelines with resource and constraint checking capabilities. It allows for statusing of activities, the inclusion of hyperlinks to activities, the ability to check and manipulate constraints and resource usage by activities.", "identifier": "MSC-26142-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-26142-1", + "laborHours": 0, + "name": "Score 3.2 and Subs(3.2, 3.3, 3.4, 3.5, 3.6, 3.7, 3.8)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-1" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-26142-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb631f" }, - "name": "NASA Aircraft Management Information System (NAMIS)", - "description": "The NASA Aircraft Management Information System (NAMIS) is an enterprise resource planning/mission support software suite designed from the ground up to meet both the mission support requirements and the business management requirements of JSC's Aircraft Operations Division (AOD). The system features tools and processes that: 1) eliminate the risk of conducting flight operations in aircraft with overdue inspections, in aircraft with grounding discrepancies, and in aircraft not properly configured for the mission; 2) provide continuous and positive control of all assets including materials, parts, and equipment that exceed a customer-defined value; and 3) reduce material costs and labor hours. NAMIS includes the data, information, and metrics required to support flight operations management and business decisions, as well as the data required by other systems and external components to support consistent and accurate financial reporting and asset accounting.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The NASA Aircraft Management Information System (NAMIS) is an enterprise resource planning/mission support software suite designed from the ground up to meet both the mission support requirements and the business management requirements of JSC's Aircraft Operations Division (AOD). The system features tools and processes that: 1) eliminate the risk of conducting flight operations in aircraft with overdue inspections, in aircraft with grounding discrepancies, and in aircraft not properly configured for the mission; 2) provide continuous and positive control of all assets including materials, parts, and equipment that exceed a customer-defined value; and 3) reduce material costs and labor hours. NAMIS includes the data, information, and metrics required to support flight operations management and business decisions, as well as the data required by other systems and external components to support consistent and accurate financial reporting and asset accounting.", "identifier": "MSC-24723-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24723-1", + "laborHours": 0, + "name": "NASA Aircraft Management Information System (NAMIS)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24723-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6320" }, - "name": "GCR Event-Based Risk Model (GERMCode) Code", - "description": "The GERMCode provides scientists data interpretation of experiments; modeling of beam line, shielding of target samples and sample holders; and estimation of basic physical and biological outputs of their experiments.\r\nFor mono-energetic ion beams, basic physical and biological properties are calculated for a selected ion type, such as kinetic energy, mass, charge number, absorbed dose, or fluence. Evaluated quantities are linear energy transfer (LET), range (R), absorption and fragmentation cross sections, and the probability of nuclear interactions after 1 or 5 cm of water equivalent material. In addition, a set of biophysical properties are evaluated, such as, the Poisson distribution for a specified cellular area, cell survival curves, and DNA damage yields per cell.\r\n\r\n Also, the GERM code calculates the radiation transport of the beam line for either a fixed number of user specified depths or at multiple positions along the Bragg curve of the particle in a selected material. \r\n", - "tags": [ - "NASA", - "JSC", - "General Public Release", - "Crew and Life Support" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-9-18" + }, + "description": "The GERMCode provides scientists data interpretation of experiments; modeling of beam line, shielding of target samples and sample holders; and estimation of basic physical and biological outputs of their experiments.\r\nFor mono-energetic ion beams, basic physical and biological properties are calculated for a selected ion type, such as kinetic energy, mass, charge number, absorbed dose, or fluence. Evaluated quantities are linear energy transfer (LET), range (R), absorption and fragmentation cross sections, and the probability of nuclear interactions after 1 or 5 cm of water equivalent material. In addition, a set of biophysical properties are evaluated, such as, the Poisson distribution for a specified cellular area, cell survival curves, and DNA damage yields per cell.\r\n\r\n Also, the GERM code calculates the radiation transport of the beam line for either a fixed number of user specified depths or at multiple positions along the Bragg curve of the particle in a selected material. \r\n", "identifier": "MSC-24760-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24760-1", + "laborHours": 0, + "name": "GCR Event-Based Risk Model (GERMCode) Code", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-9-18" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24760-1", + "tags": [ + "NASA", + "JSC", + "General Public Release", + "Crew and Life Support" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6321" }, - "name": "GFEChutes Lo-Fi", - "description": "The GFE Lo-Fi Chutes Model provides basic modeling capability of a sequential series of parachute activities. Actions include deploying the parachute, changing the reefing on the parachute, and cutting away the parachute. Multiple chutes can be deployed at any given time, but all chutes in that case are assumed to behave as individually isolated chutes; there is no modeling of any interactions between deployed chutes. Drag characteristics of a deployed chute are based on a coefficient of drag, the face-area of the chute, and the local dynamic pressure only. The orientation of the chute is approximately modeled for purposes of obtaining torques on the vehicle, but the dynamic state of the chute as a separate entity is not integrated, the treatment is simply an approximation. \r\n\r\nPlans for every post-shuttle manned vehicle which will reenter Earth's atmosphere, or for that matter, the Martian atmosphere, include a descent phase controlled by some sort of parachute system. Having a NASA-certified parachute model which can be plugged into various flight simulators is a huge advantage. Building a special purpose parachute simulator for a specific simulation is at least a million dollar job. Lockheed Martin had to do exactly that in order to support Pad Abort I, and GFEChutes Lo-Fi was tested against the Lockheed prototype. \r\n\r\nHaving a verified, Class C parachute model, packaged in a reusable (plug-and-play) form, is smart technically and an outstanding strategic move as we enter the world of commercial manned space flight. ", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Vehicle Management (Space/Air/Ground)" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-30" + }, + "description": "The GFE Lo-Fi Chutes Model provides basic modeling capability of a sequential series of parachute activities. Actions include deploying the parachute, changing the reefing on the parachute, and cutting away the parachute. Multiple chutes can be deployed at any given time, but all chutes in that case are assumed to behave as individually isolated chutes; there is no modeling of any interactions between deployed chutes. Drag characteristics of a deployed chute are based on a coefficient of drag, the face-area of the chute, and the local dynamic pressure only. The orientation of the chute is approximately modeled for purposes of obtaining torques on the vehicle, but the dynamic state of the chute as a separate entity is not integrated, the treatment is simply an approximation. \r\n\r\nPlans for every post-shuttle manned vehicle which will reenter Earth's atmosphere, or for that matter, the Martian atmosphere, include a descent phase controlled by some sort of parachute system. Having a NASA-certified parachute model which can be plugged into various flight simulators is a huge advantage. Building a special purpose parachute simulator for a specific simulation is at least a million dollar job. Lockheed Martin had to do exactly that in order to support Pad Abort I, and GFEChutes Lo-Fi was tested against the Lockheed prototype. \r\n\r\nHaving a verified, Class C parachute model, packaged in a reusable (plug-and-play) form, is smart technically and an outstanding strategic move as we enter the world of commercial manned space flight. ", "identifier": "MSC-25004-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25004-1", + "laborHours": 0, + "name": "GFEChutes Lo-Fi", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-30" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25004-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6322" }, - "name": "Class A Core Flight Software (SBN653)", - "description": "This software provides a communication pass through between NASA's Core Flight Software (CFS) framework's software bus and the ARINC-653 standard sampling port mechanisms. It is provided to adapt the CFS framework to run within ARINC-653 partitioned operating environments.\r\n", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-4-12" + }, + "description": "This software provides a communication pass through between NASA's Core Flight Software (CFS) framework's software bus and the ARINC-653 standard sampling port mechanisms. It is provided to adapt the CFS framework to run within ARINC-653 partitioned operating environments.\r\n", "identifier": "MSC-25998-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25998-1", + "laborHours": 0, + "name": "Class A Core Flight Software (SBN653)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-4-12" - } + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/MSC-25998-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6323" }, - "name": "RITRACKS: A software for simulation of stochastic radiation track structure, micro- and nano-dosimetry, radiation chemistry and DNA damage by heavy ions", - "description": "The code RITRACKS (Relativistic Ion Tracks) has been developed over the last years at the NASA Johnson Space Center to simulate the effects of ionizing radiations at the microscopic scale and to understand the effects of space radiation at the biological level. The fundamental part of this code is the stochastic simulation of radiation track structure of heavy ions, an important component of space radiations. The code can calculate many relevant quantities such as the radial dose, voxel dose, and may also be used to calculate the dose in spherical and cylindrical targets of various sizes. Recently, we have incorporated DNA structure and damage simulations at the molecular scale in RITRACKS. The direct effect of radiations is simulated by introducing a slight modification of the existing particle transport algorithms, using the Binary-Encounter-Bethe model of ionization cross sections for each molecular orbitals of DNA. The simulation of radiation chemistry is done by a step-by-step diffusion-reaction program based on the Greens functions of the diffusion equation. This approach is also used to simulate the indirect effect of ionizing radiation on DNA. The software can be installed independently on PC and tablets using the Windows operating system and does not require any coding from the user. It includes a Graphic User Interface (GUI) and a 3D OpenGL visualization interface. The calculations are executed simultaneously (in parallel) on multiple CPUs. ", - "tags": [ - "NASA", - "JSC", - "General Public Release", - "Crew and Life Support" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-6" + }, + "description": "The code RITRACKS (Relativistic Ion Tracks) has been developed over the last years at the NASA Johnson Space Center to simulate the effects of ionizing radiations at the microscopic scale and to understand the effects of space radiation at the biological level. The fundamental part of this code is the stochastic simulation of radiation track structure of heavy ions, an important component of space radiations. The code can calculate many relevant quantities such as the radial dose, voxel dose, and may also be used to calculate the dose in spherical and cylindrical targets of various sizes. Recently, we have incorporated DNA structure and damage simulations at the molecular scale in RITRACKS. The direct effect of radiations is simulated by introducing a slight modification of the existing particle transport algorithms, using the Binary-Encounter-Bethe model of ionization cross sections for each molecular orbitals of DNA. The simulation of radiation chemistry is done by a step-by-step diffusion-reaction program based on the Greens functions of the diffusion equation. This approach is also used to simulate the indirect effect of ionizing radiation on DNA. The software can be installed independently on PC and tablets using the Windows operating system and does not require any coding from the user. It includes a Graphic User Interface (GUI) and a 3D OpenGL visualization interface. The calculations are executed simultaneously (in parallel) on multiple CPUs. ", "identifier": "MSC-25937-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25937-1", + "laborHours": 0, + "name": "RITRACKS: A software for simulation of stochastic radiation track structure, micro- and nano-dosimetry, radiation chemistry and DNA damage by heavy ions", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-6" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25937-1", + "tags": [ + "NASA", + "JSC", + "General Public Release", + "Crew and Life Support" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6324" }, - "name": "The DEBRIS code for tracking particles with mass and drag through computational fluid dynamics solutions on overset grids", - "description": "The DEBRIS software performs particle tracking within an overset grid system from a computational fluid dynamics (CFD) solution. The particle tracking is based on the particle's mass properties and local aerodynamic characteristics within the flowfield. The software allows the user to specify the location and initial conditions for release of the particle. The code then traces the particle's ballistic trajectory (i.e. any lift force is ignored) through the grid system. The resulting trajectory is output to a file which can be viewed/processed as needed by the user.\r\n\r\nThe DEBRIS software was created to accurately and efficiently analyze the debris transport environment for liberated debris from the Space Shuttle Launch Vehicle (SSLV) during ascent. The motivation for its development is a consequence of the Columbia accident, where foam used to insulate the external tank dislodged during ascent and struck the wing leading edge of the Orbiter. The resulting impact critically breached the thermal protection system for the wing, allowing hot gases to enter the structure of the vehicle, which led to the catastrophic loss of crew and vehicle.\r\n", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "System Testing" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-4-19" + }, + "description": "The DEBRIS software performs particle tracking within an overset grid system from a computational fluid dynamics (CFD) solution. The particle tracking is based on the particle's mass properties and local aerodynamic characteristics within the flowfield. The software allows the user to specify the location and initial conditions for release of the particle. The code then traces the particle's ballistic trajectory (i.e. any lift force is ignored) through the grid system. The resulting trajectory is output to a file which can be viewed/processed as needed by the user.\r\n\r\nThe DEBRIS software was created to accurately and efficiently analyze the debris transport environment for liberated debris from the Space Shuttle Launch Vehicle (SSLV) during ascent. The motivation for its development is a consequence of the Columbia accident, where foam used to insulate the external tank dislodged during ascent and struck the wing leading edge of the Orbiter. The resulting impact critically breached the thermal protection system for the wing, allowing hot gases to enter the structure of the vehicle, which led to the catastrophic loss of crew and vehicle.\r\n", "identifier": "MSC-23945-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-23945-1", + "laborHours": 0, + "name": "The DEBRIS code for tracking particles with mass and drag through computational fluid dynamics solutions on overset grids", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-4-19" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-23945-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6325" }, - "name": "Advanced Life Support Sizing Analysis Tool (ALSSAT), Version 12.0", - "description": "The Advanced Life Support Sizing Analysis Tool (ALSSAT) is a computer model for sizing and analyzing designs of environmental-control and life support systems (ECLSS) for spacecraft and surface habitats involved in the exploration of Mars and the Moon. It performs conceptual designs of advanced life support (ALS) subsystems that recycle air and water and process wastes in order to reduce the need for resource resupply. ALSSAT is a means of investigating combinations of such subsystems' technologies and thereby assists in determining the most cost-effective technology combination available. Using the Microsoft Excel spreadsheet software with Visual Basic programming language, ALSSAT has been developed to perform multiple-case trade studies based on the calculated ECLSS mass, volume, power, and Equivalent System Mass, as well as parametric studies by varying the input parameters. ALSSAT's modular format is specifically designed for the ease of future maintenance and upgrades.", - "tags": [ - "NASA", - "JSC", - "U.S. Release Only", - "Design and Integration Tools" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Advanced Life Support Sizing Analysis Tool (ALSSAT) is a computer model for sizing and analyzing designs of environmental-control and life support systems (ECLSS) for spacecraft and surface habitats involved in the exploration of Mars and the Moon. It performs conceptual designs of advanced life support (ALS) subsystems that recycle air and water and process wastes in order to reduce the need for resource resupply. ALSSAT is a means of investigating combinations of such subsystems' technologies and thereby assists in determining the most cost-effective technology combination available. Using the Microsoft Excel spreadsheet software with Visual Basic programming language, ALSSAT has been developed to perform multiple-case trade studies based on the calculated ECLSS mass, volume, power, and Equivalent System Mass, as well as parametric studies by varying the input parameters. ALSSAT's modular format is specifically designed for the ease of future maintenance and upgrades.", "identifier": "MSC-25510-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25510-1", + "laborHours": 0, + "name": "Advanced Life Support Sizing Analysis Tool (ALSSAT), Version 12.0", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25510-1", + "tags": [ + "NASA", + "JSC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6326" }, - "name": "Electronic Position Description System (ePDS)", - "description": "The electronic Position Description System (ePDS) is a NASA-developed, web-based application for: creating, classifying, editing, approving, publishing, reporting, viewing, and archiving Federal civil service employee position descriptions. ePDS is a desktop application and contains no protected PII or SBUC data. Recipient Federal agency will have no inter-connectivity with NASA systems or networks. Software will be used as the development model and proof of concept for the OPM version.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The electronic Position Description System (ePDS) is a NASA-developed, web-based application for: creating, classifying, editing, approving, publishing, reporting, viewing, and archiving Federal civil service employee position descriptions. ePDS is a desktop application and contains no protected PII or SBUC data. Recipient Federal agency will have no inter-connectivity with NASA systems or networks. Software will be used as the development model and proof of concept for the OPM version.", "identifier": "MSC-24585-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-24585-1", + "laborHours": 0, + "name": "Electronic Position Description System (ePDS)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-24585-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6327" }, - "name": "Input Device Framework (IDF)", - "description": "Framework for mapping physical input devices (joysticks, gaming controllers, custom control panels, etc) to application-specific virtual controller interfaces. Pattern for writing device-independent code.", - "tags": [ - "NASA", - "JSC", - "Open Source", - "Operations" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-6-13" + }, + "description": "Framework for mapping physical input devices (joysticks, gaming controllers, custom control panels, etc) to application-specific virtual controller interfaces. Pattern for writing device-independent code.", "identifier": "MSC-25810-1", - "repositoryURL": "https://github.com/nasa/idf", + "laborHours": 0, + "name": "Input Device Framework (IDF)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/IDF/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-6-13" - } + "repositoryURL": "https://github.com/nasa/idf", + "tags": [ + "NASA", + "JSC", + "Open Source", + "Operations" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6328" + "$oid": "5a3a9b78da833f1e40fb6329" }, - "name": "Human Factors Analysis Support Tool (H-FAST), Version 2.0", - "description": "This software increases human factors awareness among design engineers, facilitates communication between human factors engineers and design engineers, and promotes the application of human factors best practices early in the design cycle. H-FAST also offers detailed guidance regarding human factors evaluations and provides the capability to store these evaluations", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Crew and Life Support" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "To help maximize payload capability, AESOP-STAB determines the minimum weight of an n-layer thermal protection system (TPS) material subject to temperature constraints. Originally developed in the 1970s, code modifications include enhanced environment input options, solution routines, and material response capabilities. To use the program, the user must define the thermal model, select the desired optimization procedure(s), define all thermo-physical properties for each material, and provide the desired boundary conditions (i.e., heating rates and back wall conditions). AESOP-STAB was designed to make the preparation of input data as simple as possible.", + "identifier": "MSC-25566-1", + "laborHours": 0, + "name": "AESOP-STAB Ablation Modeling and Optimization Program, Version 3.1", "organization": "JSC", - "identifier": "MSC-25653-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25653-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6329" + "usageType": "governmentWideReuse" }, - "name": "AESOP-STAB Ablation Modeling and Optimization Program, Version 3.1", - "description": "To help maximize payload capability, AESOP-STAB determines the minimum weight of an n-layer thermal protection system (TPS) material subject to temperature constraints. Originally developed in the 1970s, code modifications include enhanced environment input options, solution routines, and material response capabilities. To use the program, the user must define the thermal model, select the desired optimization procedure(s), define all thermo-physical properties for each material, and provide the desired boundary conditions (i.e., heating rates and back wall conditions). AESOP-STAB was designed to make the preparation of input data as simple as possible.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25566-1", "tags": [ "NASA", "JSC", "U.S. Release Only", "Structures and Mechanisms" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6328" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software increases human factors awareness among design engineers, facilitates communication between human factors engineers and design engineers, and promotes the application of human factors best practices early in the design cycle. H-FAST also offers detailed guidance regarding human factors evaluations and provides the capability to store these evaluations", + "identifier": "MSC-25653-1", + "laborHours": 0, + "name": "Human Factors Analysis Support Tool (H-FAST), Version 2.0", "organization": "JSC", - "identifier": "MSC-25566-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25566-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25653-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Crew and Life Support" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb632a" }, - "name": "NASA HMS (Hazard Management System)", + "contact": { + "email": "jsc-ttco-software-request@mail.nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, "description": "The Web-based, access-controlled NASA Hazard Management System (HMS) provides a centralized repository for hazards regardless of origin and offers the ability to report and manage real-time hazards and controls. The primary mechanism for identifying and documenting hazardous conditions within HMS lies in the creation and management of two types of analysis documents: Hazard Analyses (HAs) and Job Hazard Analyses (JHAs). While these two document types offer different approaches for hazard identification and classification, they both offer controls for mitigating hazards. HMS provides a framework within which HA and JHA documents are created, reviewed, and approved. Once approved, the hazardous conditions identified within a document are considered active. More important, the controls associated with the hazards are then also considered active. HMS includes the mechanisms required to evaluate hazards using standard Risk Assessment Code (RAC) scoring.", + "identifier": "MSC-25694-1", + "laborHours": 0, + "name": "NASA HMS (Hazard Management System)", + "organization": "JSC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/MSC-25694-1", "tags": [ "NASA", "JSC", "General Public Release", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb632c" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "MBJEOD is a multi-body dynamics (MBDyn) software interface layer that allows transfer of forces between muti-body articulating objects and the JEOD orbital dynamics package.", + "identifier": "MSC-25732-1", + "laborHours": 0, + "name": "MBJEOD: An Integrated Multibody and Orbital Dynamics Simulation Module", "organization": "JSC", - "identifier": "MSC-25694-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25694-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25732-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb632b" }, - "name": "Trick 13 Simulation Environment", - "description": "The Trick Simulation environment is a generic simulation toolkit used for constructing and running simulations. The Trick 13 Interface Code Generator (ICG), a utility that provides math model class and structure layout data, has been rewritten and is based off of the open source clang/llvm project. The Trick numerical integrators have been replaced with a common set of integrators. Several core components are enhanced from previous Trick versions. Trick 13 is now Open Source software and can be downloaded at http://code.nasa.gov/#/", - "tags": [ - "NASA", - "JSC", - "Open Source", - "Design and Integration Tools" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-2-9" + }, + "description": "The Trick Simulation environment is a generic simulation toolkit used for constructing and running simulations. The Trick 13 Interface Code Generator (ICG), a utility that provides math model class and structure layout data, has been rewritten and is based off of the open source clang/llvm project. The Trick numerical integrators have been replaced with a common set of integrators. Several core components are enhanced from previous Trick versions. Trick 13 is now Open Source software and can be downloaded at http://code.nasa.gov/#/", "identifier": "MSC-25665-1", - "repositoryURL": "https://github.com/nasa/Trick", + "laborHours": 0, + "name": "Trick 13 Simulation Environment", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/trick/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-2-9" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb632c" - }, - "name": "MBJEOD: An Integrated Multibody and Orbital Dynamics Simulation Module", - "description": "MBJEOD is a multi-body dynamics (MBDyn) software interface layer that allows transfer of forces between muti-body articulating objects and the JEOD orbital dynamics package.", + "repositoryURL": "https://github.com/nasa/Trick", "tags": [ "NASA", "JSC", - "U.S. Government Purpose Release", + "Open Source", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb632d" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-25" + }, + "description": "The Morpheus simulation is a suite of software models which simulate the performance of a lander vehicle. The specific vehicle is a terrestrial lander used as a \"vertical test bed\" platform for developing technology and proving hardware and software systems for use in space exploration. Morpheus software consists of three main components - flight software, ground software, and simulation software. While the emphasis in spacecraft development typically tends to be on the flight software - that software residing and running on the actual vehicle -- both ground and simulation software components are equally essential in developing, testing, and operating the craft.", + "identifier": "MSC-25256-1", + "laborHours": 0, + "name": "Morpheus Lander Vehicle Simulation", "organization": "JSC", - "identifier": "MSC-25732-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25732-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb632d" - }, - "name": "Morpheus Lander Vehicle Simulation", - "description": "The Morpheus simulation is a suite of software models which simulate the performance of a lander vehicle. The specific vehicle is a terrestrial lander used as a \"vertical test bed\" platform for developing technology and proving hardware and software systems for use in space exploration. Morpheus software consists of three main components - flight software, ground software, and simulation software. While the emphasis in spacecraft development typically tends to be on the flight software - that software residing and running on the actual vehicle -- both ground and simulation software components are equally essential in developing, testing, and operating the craft.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25256-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb632f" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "C++ General Use Nodal Network Solver toolkit that can be used to simulate and solve complex networks of fluids, thermal and electrical systems.", + "identifier": "MSC-25468-1", + "laborHours": 0, + "name": "General-Use Nodal Network Solver (GUNNS)", "organization": "JSC", - "identifier": "MSC-25256-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25256-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-25" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb632e" + "usageType": "governmentWideReuse" }, - "name": "Advanced Life Support Sizing Analysis Tool (ALSSAT) version 12.0", - "description": "ALSSAT has been developed for use in the sizing and analysis of Environmental Control and Life Support Systems (ECLSS) for spacecraft and habitats. The purpose of this tool is to perform life support system trade studies and analysis. ALSSAT aids in the creation of conceptual designs for advanced systems using physiochemical and biological processes in either open-loop systems or closed-loop systems that recycle air and water as well as process human waste products. The regenerative life support processes can be used as a means to decrease the amount of consumable re-supply required for a range of missions including in-space transit vehicles or habitats, and surface habitats on the moon or Mars. Since not all missions are long enough to payback the mass of the recycling hardware, or may not need all possible resources that could be recycled, determining the best suite of technologies to provide the right amount of resource recovery for each mission is very difficult. Because so many technological combinations are possible, the development of an Advanced Life Support Sizing Analysis Tool (ALSSAT) was created as a means to investigate these combinations. This tool assists in the determination of the most mass effective and reliable combination of methods available for a steady-state operating condition. ALSSAT has been developed using the Microsoft Excel spreadsheet program and has been programmed to perform multiple-case mission scenarios through Visual Basic (VB) interface forms for data input and computational analysis of ALS subsystems. Based on the preliminary design considerations, the Advanced Life Support system mass, power, and volume are computed for various mission specifications. The results can be used as a guide to select the best system architecture.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25468-1", "tags": [ "NASA", "JSC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb632e" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", - "identifier": "MSC-25510-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25510-1", - "permissions": { - "licenses": [ - { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" - } - ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2016-8-4" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb632f" - }, - "name": "General-Use Nodal Network Solver (GUNNS)", - "description": "C++ General Use Nodal Network Solver toolkit that can be used to simulate and solve complex networks of fluids, thermal and electrical systems.", - "tags": [ - "NASA", - "JSC", - "U.S. Release Only", - "Design and Integration Tools" - ], - "contact": { - "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "description": "ALSSAT has been developed for use in the sizing and analysis of Environmental Control and Life Support Systems (ECLSS) for spacecraft and habitats. The purpose of this tool is to perform life support system trade studies and analysis. ALSSAT aids in the creation of conceptual designs for advanced systems using physiochemical and biological processes in either open-loop systems or closed-loop systems that recycle air and water as well as process human waste products. The regenerative life support processes can be used as a means to decrease the amount of consumable re-supply required for a range of missions including in-space transit vehicles or habitats, and surface habitats on the moon or Mars. Since not all missions are long enough to payback the mass of the recycling hardware, or may not need all possible resources that could be recycled, determining the best suite of technologies to provide the right amount of resource recovery for each mission is very difficult. Because so many technological combinations are possible, the development of an Advanced Life Support Sizing Analysis Tool (ALSSAT) was created as a means to investigate these combinations. This tool assists in the determination of the most mass effective and reliable combination of methods available for a steady-state operating condition. ALSSAT has been developed using the Microsoft Excel spreadsheet program and has been programmed to perform multiple-case mission scenarios through Visual Basic (VB) interface forms for data input and computational analysis of ALS subsystems. Based on the preliminary design considerations, the Advanced Life Support system mass, power, and volume are computed for various mission specifications. The results can be used as a guide to select the best system architecture.", + "identifier": "MSC-25510-1", + "laborHours": 0, + "name": "Advanced Life Support Sizing Analysis Tool (ALSSAT) version 12.0", "organization": "JSC", - "identifier": "MSC-25468-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25468-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25510-1", + "tags": [ + "NASA", + "JSC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6330" }, - "name": "Generic Command and Telemetry Applications for the Core Flight Software Framework (CI-TO)", - "description": "This set of applications provides general purpose, configurable, and extensible spacecraft commanding and telemetry functionality supporting a wide variety of communications protocols and transports, and was designed, built, and intended for reuse.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Aeronautics" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-8-17" + }, + "description": "This set of applications provides general purpose, configurable, and extensible spacecraft commanding and telemetry functionality supporting a wide variety of communications protocols and transports, and was designed, built, and intended for reuse.", "identifier": "MSC-26175-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-26175-1", + "laborHours": 0, + "name": "Generic Command and Telemetry Applications for the Core Flight Software Framework (CI-TO)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-8-17" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-26175-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6331" }, - "name": "BUMPER Micrometeoroid and Orbital Debris Risk Assessment Tool, Version 3.0", - "description": "BUMPER is the primary risk analysis program used by NASA to provide safe and reliable operation of spacecraft exposed to the impacts of micrometeoroid/orbital debris (MMOD). BUMPER 3.0 is a major update to BUMPER-II released in the early 1990s.", - "tags": [ - "NASA", - "JSC", - "U.S. Release Only", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "BUMPER is the primary risk analysis program used by NASA to provide safe and reliable operation of spacecraft exposed to the impacts of micrometeoroid/orbital debris (MMOD). BUMPER 3.0 is a major update to BUMPER-II released in the early 1990s.", "identifier": "MSC-25474-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25474-1", + "laborHours": 0, + "name": "BUMPER Micrometeoroid and Orbital Debris Risk Assessment Tool, Version 3.0", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25474-1", + "tags": [ + "NASA", + "JSC", + "U.S. Release Only", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6332" }, - "name": "HemoDose Software, Version 2.0", - "description": "HemoDose estimates the absorbed dose of radiation in adults by using single or serial counts of granulocyte, lymphocyte, leukocyte, or platelet after exposure. ", - "tags": [ - "NASA", - "JSC", - "General Public Release", - "System Testing" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-8-30" + }, + "description": "HemoDose estimates the absorbed dose of radiation in adults by using single or serial counts of granulocyte, lymphocyte, leukocyte, or platelet after exposure. ", "identifier": "MSC-26186-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-26186-1", + "laborHours": 0, + "name": "HemoDose Software, Version 2.0", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-8-30" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6333" + "usageType": "governmentWideReuse" }, - "name": "High Definition Earth Viewing (HDEV) Payload Ground Software (Commander & Redirector)", - "description": "The High Definition Earth Viewing (HDEV) starts commands as well as receives and displays the Health & Status information and enables viewing converted data packets from HDEV as video. The software also has the ability to record the video and save it as a file.", + "repositoryURL": "https://software.nasa.gov/software/MSC-26186-1", "tags": [ "NASA", "JSC", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], + "General Public Release", + "System Testing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6333" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "JSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-8-30" + }, + "description": "The High Definition Earth Viewing (HDEV) starts commands as well as receives and displays the Health & Status information and enables viewing converted data packets from HDEV as video. The software also has the ability to record the video and save it as a file.", "identifier": "MSC-25815-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25815-1", + "laborHours": 0, + "name": "High Definition Earth Viewing (HDEV) Payload Ground Software (Commander & Redirector)", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-8-30" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6334" + "usageType": "governmentWideReuse" }, - "name": "Morpheus Vehicle Flight Software (MVFS)", - "description": "The Morpheus flight software is a complete set of vehicle software including propulsion; guidance, navigation, and control; space-like command and telemetry communication, and all support systems necessary to fly an autonomous closed-loop vehicle mission. Novel approaches to this software included for the first time at JSC, embracing the Core Flight Software (CFS) developed by Goddard Space Flight Center; componentizing guidance, navigation and control (GNC) into a plug-and-play architecture, utilizing an open-source development environment housing the software triad needed for integration - flight, ground, and simulation; and embedding the flight software within a vehicle simulation.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25815-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", - "Operations" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6335" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-30" + }, + "description": "The Acute Radiation Risk And BRYNTRN Organ Dose Projection (ARRBOD) is a radiation risk projection model for typical space traveling scenarios, which calculates gender-dependent organ doses and various acute radiation responses due to some historical large solar particle events (SPEs). ", + "identifier": "MSC-26211-1", + "laborHours": 0, + "name": "Acute Radiation Risk and BRYNTRN Organ Dose (ARRBOD) version 2.1", "organization": "JSC", - "identifier": "MSC-25240-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25240-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-8-30" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6335" + "usageType": "governmentWideReuse" }, - "name": "Acute Radiation Risk and BRYNTRN Organ Dose (ARRBOD) version 2.1", - "description": "The Acute Radiation Risk And BRYNTRN Organ Dose Projection (ARRBOD) is a radiation risk projection model for typical space traveling scenarios, which calculates gender-dependent organ doses and various acute radiation responses due to some historical large solar particle events (SPEs). ", + "repositoryURL": "https://software.nasa.gov/software/MSC-26211-1", "tags": [ "NASA", "JSC", "U.S. and Foreign Release", "Crew and Life Support" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb633b" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-10-17" + }, + "description": "Copernicus v4.4 is a new release of the Copernicus spacecraft trajectory design and optimization program. This is an update to version 4.3, which was released in February 2016. The new version includes: \r\nA new option to use plugins to adjust the initial guess for the optimization problem.\r\nNew 3D graphics updates (including a fix to a long-standing issue where the texture maps didnt always render properly on PCs with Intel HD graphics).\r\nWhen running Copernicus in command-line mode, paths can now be specified as relative paths, and can also include environment variables.\r\nNew GUI menu to only autoscale the badly-scaled optimization variables.\r\nUpdated SPICE leap second kernel (naif0012).\r\nUpdated Copernicus/Python interface library\r\nNumerous other minor features and bug fixes", + "identifier": "MSC-25863-1", + "laborHours": 0, + "name": "Copernicus Trajectory Design and Optimization System (Version 4.x)", "organization": "JSC", - "identifier": "MSC-26211-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-26211-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-30" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25863-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Operations" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6336" + "$oid": "5a3a9b78da833f1e40fb6338" }, - "name": "Fine Motor Skills (FMS) Software Application", - "description": "The Fine Motor Skills (FMS) software is an iPad application used to collect data on fine motor movements using four different tasks. The tasks are multidirectional pointing, unidirectional dragging, shape tracing, and pinch-rotate. Data collected includes movement time, errors, and x-y coordinates of movements.", - "tags": [ - "NASA", - "JSC", - "U.S. and Foreign Release", - "Crew and Life Support" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Integrated Viewer (IView) is a Web-based electronic tool used to execute Onboard Short-Term Plan Viewer (OSTPV) activities. The software serves as a consolidated user interface, integrating information from OSTPV, the International Procedure Viewer (IPV), and the Automated Stowage Note (ASN) tool.", + "identifier": "MSC-25625-1", + "laborHours": 0, + "name": "Integrated View (IView), Version 1.1.2", "organization": "JSC", - "identifier": "MSC-26032-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-26032-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-6-13" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6337" + "usageType": "governmentWideReuse" }, - "name": "Performance Improvement Notice (PIN) Tool", - "description": "The Performance Improvement Notice (PIN) Tool enables improvements (suggestions) to be entered and dispositioned via a programmed workflow. Each PIN is accepted or rejected with rationale. If a PIN is accepted, stakeholders are assigned by organization and then roles and responsibilities are defined so that an action plan can be approved and completed.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25625-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb633e" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-9" + }, + "description": "The Debris Assessment Software (DAS) is computer code for assessment of debris risk from satellite programs (2010-2070).", + "identifier": "MSC-26234-1", + "laborHours": 0, + "name": "Debris Assessment Software (DAS) v. 2.1", "organization": "JSC", - "identifier": "MSC-25541-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25541-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6338" + "usageType": "governmentWideReuse" }, - "name": "Integrated View (IView), Version 1.1.2", - "description": "The Integrated Viewer (IView) is a Web-based electronic tool used to execute Onboard Short-Term Plan Viewer (OSTPV) activities. The software serves as a consolidated user interface, integrating information from OSTPV, the International Procedure Viewer (IPV), and the Automated Stowage Note (ASN) tool.", + "repositoryURL": "https://software.nasa.gov/software/MSC-26234-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Operations" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb633a" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The CHarring Ablator Response (CHAR) Code is a 1D, 2D, and 3D ablation, thermal analysis, and porous flow solver primarily used to predict the response of ablative thermal protection systems during atmospheric entry. The software can be executed on serial and massively parallel computing platforms.", + "identifier": "MSC-25599-1", + "laborHours": 0, + "name": "Charring Ablator Response (CHAR) Code", "organization": "JSC", - "identifier": "MSC-25625-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25625-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-25599-1", + "tags": [ + "NASA", + "JSC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6339" + "$oid": "5a3a9b78da833f1e40fb633c" }, - "name": "Dynamic Onboard Ubiquitous Graphics (DOUG) Software Application", - "description": "The Dynamic Onboard Ubiquitous Graphics (DOUG) is a 3D rendering software package used for simulation and virtual reality display systems.", - "tags": [ - "NASA", - "JSC", - "General Public Release", - "Data and Image Processing" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-3" + }, + "description": "Interactive app for mobile platforms teaching about growing plants in space.", + "identifier": "MSC-26184-1", + "laborHours": 0, + "name": "Space Science Investigations: Plant Growth", "organization": "JSC", - "identifier": "MSC-23586-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-23586-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-12-2" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-26184-1", + "tags": [ + "NASA", + "JSC", + "General Public Release", + "Crew and Life Support" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb633a" + "$oid": "5a3a9b78da833f1e40fb6337" }, - "name": "Charring Ablator Response (CHAR) Code", - "description": "The CHarring Ablator Response (CHAR) Code is a 1D, 2D, and 3D ablation, thermal analysis, and porous flow solver primarily used to predict the response of ablative thermal protection systems during atmospheric entry. The software can be executed on serial and massively parallel computing platforms.", - "tags": [ - "NASA", - "JSC", - "U.S. Release Only", - "Design and Integration Tools" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Performance Improvement Notice (PIN) Tool enables improvements (suggestions) to be entered and dispositioned via a programmed workflow. Each PIN is accepted or rejected with rationale. If a PIN is accepted, stakeholders are assigned by organization and then roles and responsibilities are defined so that an action plan can be approved and completed.", + "identifier": "MSC-25541-1", + "laborHours": 0, + "name": "Performance Improvement Notice (PIN) Tool", "organization": "JSC", - "identifier": "MSC-25599-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25599-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb633b" + "usageType": "governmentWideReuse" }, - "name": "Copernicus Trajectory Design and Optimization System (Version 4.x)", - "description": "Copernicus v4.4 is a new release of the Copernicus spacecraft trajectory design and optimization program. This is an update to version 4.3, which was released in February 2016. The new version includes: \r\nA new option to use plugins to adjust the initial guess for the optimization problem.\r\nNew 3D graphics updates (including a fix to a long-standing issue where the texture maps didnt always render properly on PCs with Intel HD graphics).\r\nWhen running Copernicus in command-line mode, paths can now be specified as relative paths, and can also include environment variables.\r\nNew GUI menu to only autoscale the badly-scaled optimization variables.\r\nUpdated SPICE leap second kernel (naif0012).\r\nUpdated Copernicus/Python interface library\r\nNumerous other minor features and bug fixes", + "repositoryURL": "https://software.nasa.gov/software/MSC-25541-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", - "Operations" - ], + "Business Systems and Project Management" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6339" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-12-2" + }, + "description": "The Dynamic Onboard Ubiquitous Graphics (DOUG) is a 3D rendering software package used for simulation and virtual reality display systems.", + "identifier": "MSC-23586-1", + "laborHours": 0, + "name": "Dynamic Onboard Ubiquitous Graphics (DOUG) Software Application", "organization": "JSC", - "identifier": "MSC-25863-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25863-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-10-17" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb633c" + "usageType": "governmentWideReuse" }, - "name": "Space Science Investigations: Plant Growth", - "description": "Interactive app for mobile platforms teaching about growing plants in space.", + "repositoryURL": "https://software.nasa.gov/software/MSC-23586-1", "tags": [ "NASA", "JSC", "General Public Release", - "Crew and Life Support" - ], + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6336" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-6-13" + }, + "description": "The Fine Motor Skills (FMS) software is an iPad application used to collect data on fine motor movements using four different tasks. The tasks are multidirectional pointing, unidirectional dragging, shape tracing, and pinch-rotate. Data collected includes movement time, errors, and x-y coordinates of movements.", + "identifier": "MSC-26032-1", + "laborHours": 0, + "name": "Fine Motor Skills (FMS) Software Application", "organization": "JSC", - "identifier": "MSC-26184-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-26184-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-3" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-26032-1", + "tags": [ + "NASA", + "JSC", + "U.S. and Foreign Release", + "Crew and Life Support" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb633d" + "$oid": "5a3a9b78da833f1e40fb6341" }, - "name": "Database and Reporting Application for Code coverage on Orion (DRACO)", - "description": "The DRACO (Database and Reporting Application for Code coverage on Orion) tool suite provides streamlined collection of code coverage metrics and reporting capability for the Orion program. The tool suite integrates with existing Orion test tools including SOCRRATES/Simics and provides a low overhead method of collecting and using code coverage metrics to determine test program effectiveness.", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Data and Image Processing" - ], "contact": { - "email": "jsc-ttco-software-request@mail.nasa.gov" + "email": "ksc-dl-software-request@mail.nasa.gov" }, - "organization": "JSC", - "identifier": "MSC-26217-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-26217-1", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This MATLAB function opens a binary file generated by TRAJEX, reads and parses it, and outputs a structured data array that can be used in trajectory analysis.", + "identifier": "KSC-13564", + "laborHours": 0, + "name": "TRAJEX Binary File Reader", + "organization": "KSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-10-13" - } + "repositoryURL": "https://software.nasa.gov/software/KSC-13564", + "tags": [ + "NASA", + "KSC", + "U.S. Government Purpose Release", + "Aeronautics" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb633e" + "$oid": "5a3a9b78da833f1e40fb6334" }, - "name": "Debris Assessment Software (DAS) v. 2.1", - "description": "The Debris Assessment Software (DAS) is computer code for assessment of debris risk from satellite programs (2010-2070).", - "tags": [ - "NASA", - "JSC", - "U.S. Government Purpose Release", - "Operations" - ], "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-8-30" + }, + "description": "The Morpheus flight software is a complete set of vehicle software including propulsion; guidance, navigation, and control; space-like command and telemetry communication, and all support systems necessary to fly an autonomous closed-loop vehicle mission. Novel approaches to this software included for the first time at JSC, embracing the Core Flight Software (CFS) developed by Goddard Space Flight Center; componentizing guidance, navigation and control (GNC) into a plug-and-play architecture, utilizing an open-source development environment housing the software triad needed for integration - flight, ground, and simulation; and embedding the flight software within a vehicle simulation.", + "identifier": "MSC-25240-1", + "laborHours": 0, + "name": "Morpheus Vehicle Flight Software (MVFS)", "organization": "JSC", - "identifier": "MSC-26234-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-26234-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-9" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb633f" + "usageType": "governmentWideReuse" }, - "name": "Data Viewer for Handheld Device/Computer for 3-axis Acceleration and Attitude Measurements During Spaceflight", - "description": "This software/program allows data retrieval, viewing and analyses from a Commercial-Off-The-shelf (COTS) hand held device/computer that measures 3-axis accelerations during flight testing. Data and analyses of accelerations is important for phemomena and systems that are sensitive to gravity, such as multiphase fluid flow (e.g., gas and liquid concurrent flows). These data measurements are required for parabolic, suborbital and/or space testing and operations to evaluate research and hardware under the dynamic and different test/operational environment in zero- and/or low-gravity. The current data viewer configuration was developed using the COTS Labview Runtime Engine executable available for free download from the National Instruments website (http://www.ni.com/download/labview-run-time-engine-2012/3433/en/; http://ftp.ni.com/support/softlib/labview/labview_runtime/2012/Windows/LVRTE2012f3std.exe). In addition, the viewer uses COTS apps for retrieval/transfer of data from an Apple iTouch into the customizable Labview program . Key features are the use of COTS executable/software and apps as applied to flight and/or space applications, the ability to easily customize the viewer (e.g., visual formats, precision data viewing), ease of interface to hand held device/computer, and minimal expenditure for development and implementation. ", + "repositoryURL": "https://software.nasa.gov/software/MSC-25240-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", - "System Testing" - ], + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6340" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "A user-friendly, configurable spacecraft sizing tool, BLAST provides a shareable, re-creatable and rigorous end-to-end multi-element architecture framework that has been used to generate mass data for in-space, beyond low-Earth orbit (LEO) transportation vehicles and architectures. Offering a novel approach to modeling, BLAST couples extensive MER research with the ability to assess mission changes instantaneously by analyzing sensitivity sweeps of several parameters at once.", + "identifier": "MSC-25505-1", + "laborHours": 0, + "name": "Beyond Low-Earth Orbit (LEO) Architecture Sizing Tool (BLAST)", "organization": "JSC", - "identifier": "MSC-26185-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-26185-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-11-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6340" + "usageType": "governmentWideReuse" }, - "name": "Beyond Low-Earth Orbit (LEO) Architecture Sizing Tool (BLAST)", - "description": "A user-friendly, configurable spacecraft sizing tool, BLAST provides a shareable, re-creatable and rigorous end-to-end multi-element architecture framework that has been used to generate mass data for in-space, beyond low-Earth orbit (LEO) transportation vehicles and architectures. Offering a novel approach to modeling, BLAST couples extensive MER research with the ability to assess mission changes instantaneously by analyzing sensitivity sweeps of several parameters at once.", + "repositoryURL": "https://software.nasa.gov/software/MSC-25505-1", "tags": [ "NASA", "JSC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb633d" + }, "contact": { "email": "jsc-ttco-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-10-13" + }, + "description": "The DRACO (Database and Reporting Application for Code coverage on Orion) tool suite provides streamlined collection of code coverage metrics and reporting capability for the Orion program. The tool suite integrates with existing Orion test tools including SOCRRATES/Simics and provides a low overhead method of collecting and using code coverage metrics to determine test program effectiveness.", + "identifier": "MSC-26217-1", + "laborHours": 0, + "name": "Database and Reporting Application for Code coverage on Orion (DRACO)", "organization": "JSC", - "identifier": "MSC-25505-1", - "repositoryURL": "https://software.nasa.gov/software/MSC-25505-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-26217-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6341" + "$oid": "5a3a9b78da833f1e40fb6343" }, - "name": "TRAJEX Binary File Reader", - "description": "This MATLAB function opens a binary file generated by TRAJEX, reads and parses it, and outputs a structured data array that can be used in trajectory analysis.", - "tags": [ - "NASA", - "KSC", - "U.S. Government Purpose Release", - "Aeronautics" - ], "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Ray-Tracing Math Model will predict the intensity of infrared heat energy that can be projected from a halogen lamp or a cluster of lamps. While NASA utilized the tool in the Space Shuttle program, the application can be extended to accommodate other optical and acoustic ray-tracing applications. The current version of the technology assumes ideal parabolic surfaces and reflectors.", + "identifier": "KSC-12835", + "laborHours": 0, + "name": "Ray-Tracing Math Model", "organization": "KSC", - "identifier": "KSC-13564", - "repositoryURL": "https://software.nasa.gov/software/KSC-13564", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/KSC-12835", + "tags": [ + "NASA", + "KSC", + "General Public Release", + "Materials and Processes" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6342" }, - "name": "Web Application: Ground Hardware Management Tool", - "description": "The Ground Systems Development and Operations (GSDO) Program requires a web-based application to effectively manage and coordinate the various components of ground support equipment (GSE) used at Kennedy Space Center (KSC) throughout the spacecraft and launch vehicle processing and integration flow, as well as for launch pad operations. \r\n\r\nA considerable amount of GSE is designed by the Launch Vehicle and Spacecraft developers for KSC use during the ground processing flow. Additionally, KSC develops GSE for use during processing, launch preparation, and launch activities. All GSE used at KSC during the processing flow is tracked and identified during ground operations planning activities. The Ground Operations Planning Database (GOPDb) provides the application to coordinate the various aspects of the ground planning phase. \r\n\r\nAdditional rigor and visibility into the GSE component of ground operations planning is critical to a seamless and cost effective planning and design phase. An integrated GSE tracking solution must be developed to provide visibility, accountability, and configuration control of GSE data to all stakeholders while ensuring that the source data remains appropriately controlled and protected. \r\n\r\nThis integrated GSE tracking and management tool the Ground Hardware Management Tool (GHMT) Application - for tracking and managing GSE data used in support of KSC\\GSDO operations planning and launch campaigns. \r\n\r\nThe GHMT will be fully integrated with the GOPDb to provide a complete ground operations planning solution.", - "tags": [ - "NASA", - "KSC", - "U.S. Release Only", - "Operations" - ], "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, - "organization": "KSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-7-28" + }, + "description": "The Ground Systems Development and Operations (GSDO) Program requires a web-based application to effectively manage and coordinate the various components of ground support equipment (GSE) used at Kennedy Space Center (KSC) throughout the spacecraft and launch vehicle processing and integration flow, as well as for launch pad operations. \r\n\r\nA considerable amount of GSE is designed by the Launch Vehicle and Spacecraft developers for KSC use during the ground processing flow. Additionally, KSC develops GSE for use during processing, launch preparation, and launch activities. All GSE used at KSC during the processing flow is tracked and identified during ground operations planning activities. The Ground Operations Planning Database (GOPDb) provides the application to coordinate the various aspects of the ground planning phase. \r\n\r\nAdditional rigor and visibility into the GSE component of ground operations planning is critical to a seamless and cost effective planning and design phase. An integrated GSE tracking solution must be developed to provide visibility, accountability, and configuration control of GSE data to all stakeholders while ensuring that the source data remains appropriately controlled and protected. \r\n\r\nThis integrated GSE tracking and management tool the Ground Hardware Management Tool (GHMT) Application - for tracking and managing GSE data used in support of KSC\\GSDO operations planning and launch campaigns. \r\n\r\nThe GHMT will be fully integrated with the GOPDb to provide a complete ground operations planning solution.", "identifier": "KSC-13923", - "repositoryURL": "https://software.nasa.gov/software/KSC-13923", + "laborHours": 0, + "name": "Web Application: Ground Hardware Management Tool", + "organization": "KSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-7-28" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6343" + "usageType": "governmentWideReuse" }, - "name": "Ray-Tracing Math Model", - "description": "The Ray-Tracing Math Model will predict the intensity of infrared heat energy that can be projected from a halogen lamp or a cluster of lamps. While NASA utilized the tool in the Space Shuttle program, the application can be extended to accommodate other optical and acoustic ray-tracing applications. The current version of the technology assumes ideal parabolic surfaces and reflectors.", + "repositoryURL": "https://software.nasa.gov/software/KSC-13923", "tags": [ "NASA", "KSC", - "General Public Release", - "Materials and Processes" - ], + "U.S. Release Only", + "Operations" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6344" + }, "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "With the easy-to-use Analog Input Data Acquisition Software, a user can set up a system for monitoring up to five analog input channels. The software requires LabVIEW runtime engine 8.0 (a free download from ni.com) to run the executable.", + "identifier": "KSC-13203", + "laborHours": 0, + "name": "Analog Input Data Acquisition Software", "organization": "KSC", - "identifier": "KSC-12835", - "repositoryURL": "https://software.nasa.gov/software/KSC-12835", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6344" + "usageType": "governmentWideReuse" }, - "name": "Analog Input Data Acquisition Software", - "description": "With the easy-to-use Analog Input Data Acquisition Software, a user can set up a system for monitoring up to five analog input channels. The software requires LabVIEW runtime engine 8.0 (a free download from ni.com) to run the executable.", + "repositoryURL": "https://www.mathworks.com/help/daq/acquire-analog-input-data.html?requestedDomain=www.mathworks.com", "tags": [ "NASA", "KSC", "General Public Release", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6345" + }, "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Design Process Integration (DPI) is a systems engineering approach using an integrated database. It provides checklist-type data input forms to assure compliance with contractual requirements and also provides a common database repository for the information behind the released design drawings.", + "identifier": "KSC-12294", + "laborHours": 0, + "name": "Design Process Integration (DPI)", "organization": "KSC", - "identifier": "KSC-13203", - "repositoryURL": "https://www.mathworks.com/help/daq/acquire-analog-input-data.html?requestedDomain=www.mathworks.com", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6345" + "usageType": "governmentWideReuse" }, - "name": "Design Process Integration (DPI)", - "description": "Design Process Integration (DPI) is a systems engineering approach using an integrated database. It provides checklist-type data input forms to assure compliance with contractual requirements and also provides a common database repository for the information behind the released design drawings.", + "repositoryURL": "https://software.nasa.gov/software/KSC-12294", "tags": [ "NASA", "KSC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6346" + }, "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Goal Performance Evaluation System (GPES) is an innovative interactive software application that implements, validates, and evaluates an organization's performance by the achievements of its employees. The tool has been used for strategic planning, employee performance management, and center-wide communication. The system is Web-based and uses a relational database to host information.", + "identifier": "KSC-12036", + "laborHours": 0, + "name": "Goal Performance Evaluation System", "organization": "KSC", - "identifier": "KSC-12294", - "repositoryURL": "https://software.nasa.gov/software/KSC-12294", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6346" + "usageType": "governmentWideReuse" }, - "name": "Goal Performance Evaluation System", - "description": "The Goal Performance Evaluation System (GPES) is an innovative interactive software application that implements, validates, and evaluates an organization's performance by the achievements of its employees. The tool has been used for strategic planning, employee performance management, and center-wide communication. The system is Web-based and uses a relational database to host information.", + "repositoryURL": "https://software.nasa.gov/software/KSC-12036", "tags": [ "NASA", "KSC", "U.S. Release Only", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6347" + }, "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Piping Stress Analysis Software calculates the stress, working pressure, or required pipe-wall thickness for a given application in a simple, straightforward manner. The program allows the user to select a specific material from a database of commonly used materials or to create a customized database for an unlisted material. Pipes can be analyzed according to several sets of requirements, including the ASME/ANSI B31.1 and B31.3 piping codes and the JIC hydraulics code. Both standard and SI metric versions are available.", + "identifier": "KSC-11692-1", + "laborHours": 0, + "name": "Piping Stress Analysis Software", "organization": "KSC", - "identifier": "KSC-12036", - "repositoryURL": "https://software.nasa.gov/software/KSC-12036", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6347" + "usageType": "governmentWideReuse" }, - "name": "Piping Stress Analysis Software", - "description": "The Piping Stress Analysis Software calculates the stress, working pressure, or required pipe-wall thickness for a given application in a simple, straightforward manner. The program allows the user to select a specific material from a database of commonly used materials or to create a customized database for an unlisted material. Pipes can be analyzed according to several sets of requirements, including the ASME/ANSI B31.1 and B31.3 piping codes and the JIC hydraulics code. Both standard and SI metric versions are available.", + "repositoryURL": "https://software.nasa.gov/software/KSC-11692-1", "tags": [ "NASA", "KSC", "U.S. Release Only", "Structures and Mechanisms" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb633f" + }, "contact": { - "email": "ksc-dl-software-request@mail.nasa.gov" + "email": "jsc-ttco-software-request@mail.nasa.gov" }, - "organization": "KSC", - "identifier": "KSC-11692-1", - "repositoryURL": "https://software.nasa.gov/software/KSC-11692-1", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-11-15" + }, + "description": "This software/program allows data retrieval, viewing and analyses from a Commercial-Off-The-shelf (COTS) hand held device/computer that measures 3-axis accelerations during flight testing. Data and analyses of accelerations is important for phemomena and systems that are sensitive to gravity, such as multiphase fluid flow (e.g., gas and liquid concurrent flows). These data measurements are required for parabolic, suborbital and/or space testing and operations to evaluate research and hardware under the dynamic and different test/operational environment in zero- and/or low-gravity. The current data viewer configuration was developed using the COTS Labview Runtime Engine executable available for free download from the National Instruments website (http://www.ni.com/download/labview-run-time-engine-2012/3433/en/; http://ftp.ni.com/support/softlib/labview/labview_runtime/2012/Windows/LVRTE2012f3std.exe). In addition, the viewer uses COTS apps for retrieval/transfer of data from an Apple iTouch into the customizable Labview program . Key features are the use of COTS executable/software and apps as applied to flight and/or space applications, the ability to easily customize the viewer (e.g., visual formats, precision data viewing), ease of interface to hand held device/computer, and minimal expenditure for development and implementation. ", + "identifier": "MSC-26185-1", + "laborHours": 0, + "name": "Data Viewer for Handheld Device/Computer for 3-axis Acceleration and Attitude Measurements During Spaceflight", + "organization": "JSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MSC-26185-1", + "tags": [ + "NASA", + "JSC", + "U.S. Government Purpose Release", + "System Testing" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6348" + "$oid": "5a3a9b78da833f1e40fb6349" }, - "name": "Electronic Timecard System", - "description": "The Electronic Timecard System can be utilized by any business or organization wishing to streamline its payroll department procedures. The automated system minimizes the consumption of paper and eliminates the need for weekly pick-up and delivery of time sheets. The tool also simplifies the daily recording of time worked by employees, and it allows employees to \"sign\" their \"timecards\" electronically at the end of each week. Supervisors can review an employee's electronic timecards daily and sign them electronically.", - "tags": [ - "NASA", - "KSC", - "U.S. Release Only", - "Business Systems and Project Management" - ], "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Working in real time and using very little memory and CPU, Performance Logging Services (PLS) is an innovative software-performance monitoring tool that tracks statistics on timing and buffer usage. To assist in troubleshooting, PLS will start or stop other software tools when performance requirements are out of specification. The technology has been used in the Checkout and Launch Control System on NASA's Space Shuttle program.", + "identifier": "KSC-12343", + "laborHours": 0, + "name": "Performance Logging Services (PLS)", "organization": "KSC", - "identifier": "KSC-12051", - "repositoryURL": "https://software.nasa.gov/software/KSC-12051", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6349" + "usageType": "governmentWideReuse" }, - "name": "Performance Logging Services (PLS)", - "description": "Working in real time and using very little memory and CPU, Performance Logging Services (PLS) is an innovative software-performance monitoring tool that tracks statistics on timing and buffer usage. To assist in troubleshooting, PLS will start or stop other software tools when performance requirements are out of specification. The technology has been used in the Checkout and Launch Control System on NASA's Space Shuttle program.", + "repositoryURL": "https://software.nasa.gov/software/KSC-12343", "tags": [ "NASA", "KSC", "U.S. Release Only", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6348" + }, "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Electronic Timecard System can be utilized by any business or organization wishing to streamline its payroll department procedures. The automated system minimizes the consumption of paper and eliminates the need for weekly pick-up and delivery of time sheets. The tool also simplifies the daily recording of time worked by employees, and it allows employees to \"sign\" their \"timecards\" electronically at the end of each week. Supervisors can review an employee's electronic timecards daily and sign them electronically.", + "identifier": "KSC-12051", + "laborHours": 0, + "name": "Electronic Timecard System", "organization": "KSC", - "identifier": "KSC-12343", - "repositoryURL": "https://software.nasa.gov/software/KSC-12343", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb634a" + "usageType": "governmentWideReuse" }, - "name": "Closed-Loop Accounting Management System (CLAMS)", - "description": "The Closed-Loop Accounting Management System (CLAMS) is a Web-based application used to disseminate critical processing information to the workforce and provide feedback to management that the information was received. The tool allows management at any level to accurately track any critical information, and it also serves as a historical database of what information was sent out, to whom, and when it was received. CLAMS has potential application as shareware to companies using Cold Fusion Server software.", + "repositoryURL": "https://software.nasa.gov/software/KSC-12051", "tags": [ "NASA", "KSC", "U.S. Release Only", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb634a" + }, "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, - "organization": "KSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Closed-Loop Accounting Management System (CLAMS) is a Web-based application used to disseminate critical processing information to the workforce and provide feedback to management that the information was received. The tool allows management at any level to accurately track any critical information, and it also serves as a historical database of what information was sent out, to whom, and when it was received. CLAMS has potential application as shareware to companies using Cold Fusion Server software.", "identifier": "KSC-12289", - "repositoryURL": "https://software.nasa.gov/software/KSC-12289", + "laborHours": 0, + "name": "Closed-Loop Accounting Management System (CLAMS)", + "organization": "KSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb634b" + "usageType": "governmentWideReuse" }, - "name": "NASA UNIX Tool Kit", - "description": "The NASA UNIX Tool Kit contains three components that all work together to form a single technology for UNIX administration: (1) Secure, Web-Based UNIX System Administration Tools (KSC-12269) ease the administration of a large, distributed UNIX system, providing a secure mechanism for creating, modifying, locking, and deleting users. (2) The second component of the software kit is the Client/Server to Create, Modify, and Query VERITAS File System Quotas on an NFS-Mounted File System with a Secure Web-Based Interface (KSC-12268). In this technology, the client (which exists on an internal secure platform with a secure interface) can be accessed from any authorized platform capable of running a Web browser. The server software exists on a UNIX platform configured with the VERITAS file system. (3) The Web-Based IP Address Tool (KSC-12271) provides an easy-to-use system for maintaining IP address information for a network of computers.", + "repositoryURL": "https://software.nasa.gov/software/KSC-12289", "tags": [ "NASA", "KSC", "U.S. Release Only", - "Data Servers Processing and Handling" - ], + "Business Systems and Project Management" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb634c" + }, "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-12-15" + }, + "description": "A three-dimensional high resolution mapping of hail, as well as rain, is desirable in many instances. For example, hail mapping in the vicinity of a vehicle on the launch pad would help determine whether or not damage may have occurred due to a hail event. In addition to quantifying the size and quantity of hail, it is desirable to know where on the vehicle hail impacts may have occurred. High resolution display of weather radar data using the software described in this report can be used to generate a 3D hail/rain map around a large structure, such as the launch pad or a power plant.", + "identifier": "KSC-12952", + "laborHours": 0, + "name": "3D-Mapping Software for High Resolution Display of Hail and Rain Data From NWS Radar", "organization": "KSC", - "identifier": "KSC-12269", - "repositoryURL": "https://software.nasa.gov/software/KSC-12269", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb634c" + "usageType": "governmentWideReuse" }, - "name": "3D-Mapping Software for High Resolution Display of Hail and Rain Data From NWS Radar", - "description": "A three-dimensional high resolution mapping of hail, as well as rain, is desirable in many instances. For example, hail mapping in the vicinity of a vehicle on the launch pad would help determine whether or not damage may have occurred due to a hail event. In addition to quantifying the size and quantity of hail, it is desirable to know where on the vehicle hail impacts may have occurred. High resolution display of weather radar data using the software described in this report can be used to generate a 3D hail/rain map around a large structure, such as the launch pad or a power plant.", + "repositoryURL": "https://software.nasa.gov/software/KSC-12952", "tags": [ "NASA", "KSC", "U.S. Release Only", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb634b" + }, "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The NASA UNIX Tool Kit contains three components that all work together to form a single technology for UNIX administration: (1) Secure, Web-Based UNIX System Administration Tools (KSC-12269) ease the administration of a large, distributed UNIX system, providing a secure mechanism for creating, modifying, locking, and deleting users. (2) The second component of the software kit is the Client/Server to Create, Modify, and Query VERITAS File System Quotas on an NFS-Mounted File System with a Secure Web-Based Interface (KSC-12268). In this technology, the client (which exists on an internal secure platform with a secure interface) can be accessed from any authorized platform capable of running a Web browser. The server software exists on a UNIX platform configured with the VERITAS file system. (3) The Web-Based IP Address Tool (KSC-12271) provides an easy-to-use system for maintaining IP address information for a network of computers.", + "identifier": "KSC-12269", + "laborHours": 0, + "name": "NASA UNIX Tool Kit", "organization": "KSC", - "identifier": "KSC-12952", - "repositoryURL": "https://software.nasa.gov/software/KSC-12952", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-12-15" - } + "repositoryURL": "https://software.nasa.gov/software/KSC-12269", + "tags": [ + "NASA", + "KSC", + "U.S. Release Only", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb634d" }, - "name": "Inspire Connect Explore (ICE)", - "description": "The Inspire Connect Explore (ICE) application is an inspiration tool utilized by the Education and External Relations (EX) organization to increase STEM", - "tags": [ - "NASA", - "KSC", - "U.S. Release Only", - "Operations" - ], "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, - "organization": "KSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-7-7" + }, + "description": "The Inspire Connect Explore (ICE) application is an inspiration tool utilized by the Education and External Relations (EX) organization to increase STEM", "identifier": "KSC-13772", - "repositoryURL": "https://software.nasa.gov/software/KSC-13772", + "laborHours": 0, + "name": "Inspire Connect Explore (ICE)", + "organization": "KSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-7-7" - } + "repositoryURL": "https://software.nasa.gov/software/KSC-13772", + "tags": [ + "NASA", + "KSC", + "U.S. Release Only", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb634e" }, - "name": "Kennedy Action Tracking System (KATS)", - "description": "In the KATS application, a method of abstraction was used to in a foundational website platform that liberated the developers from the concern of having to manually generate Entity Framework calls to interact with the data layer of the application. This abstraction method/layer provided the ground work from which was developed a \"Project Foundation\" that has now become the basic starting block for all of our web-based solution development. This foundation drastically reduces project \"spin up\" time and standardizes data layer and other service interactions to ensure consistently high performing transactional solutions.", - "tags": [ - "NASA", - "KSC", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, - "organization": "KSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-4-15" + }, + "description": "In the KATS application, a method of abstraction was used to in a foundational website platform that liberated the developers from the concern of having to manually generate Entity Framework calls to interact with the data layer of the application. This abstraction method/layer provided the ground work from which was developed a \"Project Foundation\" that has now become the basic starting block for all of our web-based solution development. This foundation drastically reduces project \"spin up\" time and standardizes data layer and other service interactions to ensure consistently high performing transactional solutions.", "identifier": "KSC-13968", - "repositoryURL": "https://software.nasa.gov/software/KSC-13968", + "laborHours": 0, + "name": "Kennedy Action Tracking System (KATS)", + "organization": "KSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/KSC-13968", + "tags": [ + "NASA", + "KSC", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb634f" }, - "name": "MATLAB-Based Solar System Ephemeris Toolbox", - "description": "This set of MATLAB functions has been used to generate state data (position and velocity) for the Sun, the Earth's moon, and all of the other planets in the solar system. Provided by the Jet Propulsion Laboratory's Solar System Dynamics Group, the technology uses Chebychev polynomial fits of numerical integration results for solar system motion. Essentially, the toolbox functions as the MATLAB equivalent of JPL Fortran routines used to construct binary ephemeris files, verify correct installation, and generate state data.", - "tags": [ - "NASA", - "KSC", - "General Public Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, - "organization": "KSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This set of MATLAB functions has been used to generate state data (position and velocity) for the Sun, the Earth's moon, and all of the other planets in the solar system. Provided by the Jet Propulsion Laboratory's Solar System Dynamics Group, the technology uses Chebychev polynomial fits of numerical integration results for solar system motion. Essentially, the toolbox functions as the MATLAB equivalent of JPL Fortran routines used to construct binary ephemeris files, verify correct installation, and generate state data.", "identifier": "KSC-12544", - "repositoryURL": "https://software.nasa.gov/software/KSC-12544", + "laborHours": 0, + "name": "MATLAB-Based Solar System Ephemeris Toolbox", + "organization": "KSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/KSC-12544", + "tags": [ + "NASA", + "KSC", + "General Public Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6350" + "$oid": "5a3a9b78da833f1e40fb6352" }, - "name": "Application Information Logging Services (AILS)", - "description": "Application Information Logging Services (AILS) is a series of services that allow applications to log application events using a centralized set of services. Additionally administrative and report functions are available to configure the application as well as to view the logs. ", - "tags": [ - "NASA", - "KSC", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-4-15" + }, + "description": "eInfo is a web-service used to provide employee information to web-applications", + "identifier": "KSC-13991", + "laborHours": 0, + "name": "eInfo Services (EIS)", "organization": "KSC", - "identifier": "KSC-13992", - "repositoryURL": "https://software.nasa.gov/software/KSC-13992", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-5-20" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6351" + "usageType": "governmentWideReuse" }, - "name": "Authorization Services (Authos)", - "description": "Authorization services (Authos) provides a suite of tools to authorize access to client applications. This includes application services and an end-user configuration module.", + "repositoryURL": "https://software.nasa.gov/software/KSC-13991", "tags": [ "NASA", "KSC", "U.S. Government Purpose Release", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6351" + }, "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, - "organization": "KSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-5-20" + }, + "description": "Authorization services (Authos) provides a suite of tools to authorize access to client applications. This includes application services and an end-user configuration module.", "identifier": "KSC-13984", - "repositoryURL": "https://software.nasa.gov/software/KSC-13984", + "laborHours": 0, + "name": "Authorization Services (Authos)", + "organization": "KSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-5-20" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6352" + "usageType": "governmentWideReuse" }, - "name": "eInfo Services (EIS)", - "description": "eInfo is a web-service used to provide employee information to web-applications", + "repositoryURL": "https://software.nasa.gov/software/KSC-13984", "tags": [ "NASA", "KSC", "U.S. Government Purpose Release", "Business Systems and Project Management" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6350" + }, "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-5-20" + }, + "description": "Application Information Logging Services (AILS) is a series of services that allow applications to log application events using a centralized set of services. Additionally administrative and report functions are available to configure the application as well as to view the logs. ", + "identifier": "KSC-13992", + "laborHours": 0, + "name": "Application Information Logging Services (AILS)", "organization": "KSC", - "identifier": "KSC-13991", - "repositoryURL": "https://software.nasa.gov/software/KSC-13991", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/KSC-13992", + "tags": [ + "NASA", + "KSC", + "U.S. Government Purpose Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6353" }, - "name": "Thermal Insulation System Analysis Tool (TISTool)", - "description": "The Thermal Insulation System Analysis Tool has been updated with more test data from the Cryogenics Test Laboratory and has been converted to Fortran 95 to allow for easier distribution.", - "tags": [ - "NASA", - "KSC", - "U.S. Release Only", - "Operations" - ], "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, - "organization": "KSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Thermal Insulation System Analysis Tool has been updated with more test data from the Cryogenics Test Laboratory and has been converted to Fortran 95 to allow for easier distribution.", "identifier": "KSC-13561", - "repositoryURL": "https://software.nasa.gov/software/KSC-13561", + "laborHours": 0, + "name": "Thermal Insulation System Analysis Tool (TISTool)", + "organization": "KSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/KSC-13561", + "tags": [ + "NASA", + "KSC", + "U.S. Release Only", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6354" }, - "name": "Solenoid Inductance Calculator", - "description": "The Solenoid Inductance Calculator can be used to compute the inductance approximation of a cylindrical solenoid of arbitrary dimensions. The technology's calculation method (1) uses magnetic vector potential to provide a more precise estimate of inductance and (2) is not limited to a specific range of coil geometry values.", - "tags": [ - "NASA", - "KSC", - "U.S. Release Only", - "Electronics and Electrical Power" - ], "contact": { "email": "ksc-dl-software-request@mail.nasa.gov" }, - "organization": "KSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Solenoid Inductance Calculator can be used to compute the inductance approximation of a cylindrical solenoid of arbitrary dimensions. 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Propagation to the ground accounts for spherical spreading, atmospheric absorption, ground impedance effects, and limited weather effects.", "identifier": "LAR-17753-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-17753-1", + "laborHours": 0, + "name": "Rotorcraft Noise Model (RNM), Version 7", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-17753-1", + "tags": [ + "NASA", + "LaRC", + "General Public", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6357" }, - "name": "Multi-Attribute Task Battery (MATB II) Event File Builder (EFBt)", - "description": "This standalone application allows a researcher to create and edit event files for the NASA MATB II task battery through a graphical interface. 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"tags": [ - "NASA", - "LaRC", - "General Public Release", - "Design and Integration Tools" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This six-degree-of-freedom, flat-earth dynamics, non-linear, and non-proprietary aircraft simulation is a representation of a generic mid-sized twin-jet transport aircraft.", "identifier": "LAR-18322-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18322-1", + "laborHours": 0, + "name": "Transport Class Model (TCM) Aircraft Simulation Software", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-18322-1", + "tags": [ + "NASA", + "LaRC", + "General Public Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6359" }, - "name": "ACCoRDs Conflict-Detection (CD3D)/Conflict-Resolution (CR3D) Algorithms", - "description": "Written in Java and C++ and based on the Airborne Coordinated Conflict Detection and Resolution mathematical framework, CD3D and CR3D are prototype implementations of state-based conflict-detection and conflict-resolution algorithms for a 3D airspace.", - "tags": [ - "NASA", - "LaRC", - "Open Source", - "Autonomous Systems" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Written in Java and C++ and based on the Airborne Coordinated Conflict Detection and Resolution mathematical framework, CD3D and CR3D are prototype implementations of state-based conflict-detection and conflict-resolution algorithms for a 3D airspace.", "identifier": "LAR-17878-1", - "repositoryURL": "https://shemesh.larc.nasa.gov/people/cam/ACCoRD/", + "laborHours": 0, + "name": "ACCoRDs Conflict-Detection (CD3D)/Conflict-Resolution (CR3D) Algorithms", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb635a" + "usageType": "openSource" }, - "name": "Conflict Prevention Bands", - "description": "Conflict prevention information has been assembled into prevention bands that advise a crew on maneuvers that should not be taken, helping to ensure that an aircraft's path is free of conflicts with other aircraft.", + "repositoryURL": "https://shemesh.larc.nasa.gov/people/cam/ACCoRD/", "tags": [ "NASA", "LaRC", "Open Source", "Autonomous Systems" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb635a" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Conflict prevention information has been assembled into prevention bands that advise a crew on maneuvers that should not be taken, helping to ensure that an aircraft's path is free of conflicts with other aircraft.", "identifier": "LAR-17874-1", - "repositoryURL": "https://shemesh.larc.nasa.gov/fm/fm-atm-codes.html", + "laborHours": 0, + "name": "Conflict Prevention Bands", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb635b" + "usageType": "openSource" }, - "name": "Strategic Conflict Resolution (Stratway)", - "description": "Stratway modifies a four-dimensional (latitude, longitude, altitude, and time) flight plan to ensure a conflict-free trajectory. This type of resolution is strategic in that it resolves conflicts over long time horizons, perhaps over several hours.", + "repositoryURL": "https://shemesh.larc.nasa.gov/fm/fm-atm-codes.html", "tags": [ "NASA", "LaRC", "Open Source", "Autonomous Systems" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb635b" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Stratway modifies a four-dimensional (latitude, longitude, altitude, and time) flight plan to ensure a conflict-free trajectory. This type of resolution is strategic in that it resolves conflicts over long time horizons, perhaps over several hours.", "identifier": "LAR-17876-1", - "repositoryURL": "https://software.nasa.gov/software/lar-17876-1", + "laborHours": 0, + "name": "Strategic Conflict Resolution (Stratway)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/lar-17876-1", + "tags": [ + "NASA", + "LaRC", + "Open Source", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb635c" }, - "name": "Computational Fluids Laboratory 3-Dimensional (CFL3D)", - "description": "CFL3D is a structured-grid, cell-centered, upwind-biased, Reynolds-averaged Navier-Stokes (RANS) code. 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", "identifier": "LAR-16003-1", - "repositoryURL": "https://github.com/nasa/CFL3D", + "laborHours": 0, + "name": "Computational Fluids Laboratory 3-Dimensional (CFL3D)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/CFL3D/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/nasa/CFL3D", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb635d" }, - "name": "WOPWOP", - "description": "WOPWOP is used for helicopter main-rotor noise prediction. The user must input measured air loads.", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "System Testing" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "WOPWOP is used for helicopter main-rotor noise prediction. The user must input measured air loads.", "identifier": "LAR-16680-GS", - "repositoryURL": "https://software.nasa.gov/software/LAR-16680-GS", + "laborHours": 0, + "name": "WOPWOP", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb635e" + "usageType": "governmentWideReuse" }, - "name": "Advanced Subsonic and Supersonic Propeller Induced Noise (ASSPIN) prediction program", - "description": "ASSPIN is a computer program that predicts the noise generated by propellers operating at subsonic, transonic, or supersonic helical tip speeds in either single-rotation or counter-rotation mode. The format of blade surface pressure data obtained from aerodynamic codes for ASSPIN input is generally not compatible with that required by ASSPIN. The ASP_Tools suite provides the capability to manipulate blade geometry and surface pressure data to produce proper ASSPIN input. In addition, the ability to parse ASSPIN output files and obtain specific output variables is provided.", + "repositoryURL": "https://software.nasa.gov/software/LAR-16680-GS", "tags": [ "NASA", "LaRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb635e" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "ASSPIN is a computer program that predicts the noise generated by propellers operating at subsonic, transonic, or supersonic helical tip speeds in either single-rotation or counter-rotation mode. The format of blade surface pressure data obtained from aerodynamic codes for ASSPIN input is generally not compatible with that required by ASSPIN. The ASP_Tools suite provides the capability to manipulate blade geometry and surface pressure data to produce proper ASSPIN input. In addition, the ability to parse ASSPIN output files and obtain specific output variables is provided.", "identifier": "LAR-17590-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-17590-1", + "laborHours": 0, + "name": "Advanced Subsonic and Supersonic Propeller Induced Noise (ASSPIN) prediction program", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-17590-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb635f" }, - "name": "Knife, Version 1.0", - "description": "The Knife library calculates the boolean subtraction of arbitrary watertight triangular polyhedral in order to make near-field sonic boom predictions.", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "Design and Integration Tools" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Knife library calculates the boolean subtraction of arbitrary watertight triangular polyhedral in order to make near-field sonic boom predictions.", "identifier": "LAR-17481-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-17481-1", + "laborHours": 0, + "name": "Knife, Version 1.0", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-17481-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6360" }, - "name": "Acoustic Propagation and Emulation Toolset (APET)", - "description": "The Acoustic Propagation and Emulation Toolset (APET) is a framework code uniting several acoustic methodologies for the propagation and measurement of source noise audibility at farfield observers, accounting for the effects of the atmosphere, weather, terrain, and spherical spreading. Currently, APET consists of a modified version of the Rotorcraft Noise Model (RNM, Version 7) coupled with the newly developed Spectral Attenuation Method (SAM) that contains the Ray Tracing Program (RTP) and two versions of a Greens Function Parabolic Equation (GFPE) code. A third component of APET is an audibility prediction scheme based on the work of Abrahamson, initially called ICHIN (I Can Hear It Now) and further developed by Wyle Labs as AUDIB.", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "System Testing" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Acoustic Propagation and Emulation Toolset (APET) is a framework code uniting several acoustic methodologies for the propagation and measurement of source noise audibility at farfield observers, accounting for the effects of the atmosphere, weather, terrain, and spherical spreading. Currently, APET consists of a modified version of the Rotorcraft Noise Model (RNM, Version 7) coupled with the newly developed Spectral Attenuation Method (SAM) that contains the Ray Tracing Program (RTP) and two versions of a Greens Function Parabolic Equation (GFPE) code. A third component of APET is an audibility prediction scheme based on the work of Abrahamson, initially called ICHIN (I Can Hear It Now) and further developed by Wyle Labs as AUDIB.", "identifier": "LAR-17761-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-17761-1", + "laborHours": 0, + "name": "Acoustic Propagation and Emulation Toolset (APET)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6361" + "usageType": "governmentWideReuse" }, - "name": "Fast Scattering Code (FSC), Versions 3.1 and 3.2", - "description": "The Fast Scattering Code (FSC) is a computer program designed to predict the scattered acoustic field that results from the interaction between a known incident sound and arbitrary three-dimensional surfaces immersed in a potential background flow. The technology is based on the equations of time-harmonic, linearized acoustics and employs equivalent sources for solving an exterior Helmholtz equation boundary value problem (BVP). The incident sound can be generated by the FSC using a collection of simple point multipoles (monopoles and dipoles), or it can be provided by the user from other prediction codes. Predictions for high-frequency/large scale-combinations yield linear systems with millions of unknowns and memory requirements beyond the capabilities of most advanced computer systems to date. The computational engine of the FSC has been totally redesigned to alleviate the frequency limitations of the code by employing numerical algorithms that drastically reduce computer resource utilization and take advantage of multiprocessor platforms.", + "repositoryURL": "https://software.nasa.gov/software/LAR-17761-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6361" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Fast Scattering Code (FSC) is a computer program designed to predict the scattered acoustic field that results from the interaction between a known incident sound and arbitrary three-dimensional surfaces immersed in a potential background flow. The technology is based on the equations of time-harmonic, linearized acoustics and employs equivalent sources for solving an exterior Helmholtz equation boundary value problem (BVP). The incident sound can be generated by the FSC using a collection of simple point multipoles (monopoles and dipoles), or it can be provided by the user from other prediction codes. Predictions for high-frequency/large scale-combinations yield linear systems with millions of unknowns and memory requirements beyond the capabilities of most advanced computer systems to date. The computational engine of the FSC has been totally redesigned to alleviate the frequency limitations of the code by employing numerical algorithms that drastically reduce computer resource utilization and take advantage of multiprocessor platforms.", "identifier": "LAR-17828-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-17828-1", + "laborHours": 0, + "name": "Fast Scattering Code (FSC), Versions 3.1 and 3.2", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-17828-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6362" }, - "name": "HCDstruct", - "description": "This MATLAB routine generates a scalable finite element model suitable for hybrid wing-body (HWB) structural analysis and optimization. HWB geometry structure is based on a vehicle sketch-pad (VSP) surface model of an aircraft and a FLOPS-compatible parameterization of the center body and wing structure. Optimization and weight calculation are based on a Nastran finite element analysis of the primary structural components.", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "Structures and Mechanisms" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This MATLAB routine generates a scalable finite element model suitable for hybrid wing-body (HWB) structural analysis and optimization. HWB geometry structure is based on a vehicle sketch-pad (VSP) surface model of an aircraft and a FLOPS-compatible parameterization of the center body and wing structure. Optimization and weight calculation are based on a Nastran finite element analysis of the primary structural components.", "identifier": "LAR-18313-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18313-1", + "laborHours": 0, + "name": "HCDstruct", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-18313-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Structures and Mechanisms" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6363" }, - "name": "Vehicle Sketch Pad (VSP)", - "description": "The Vehicle Sketch Pad (VSP) is an aircraft geometry tool for rapid evaluation of advanced design concepts. Fast and accurate geometry modeling allows the designer to use more complex analysis methods earlier in the design process and reduces reliance on empiricism in conceptual design. VSP includes tools to model and export the internal structural layout.", - "tags": [ - "NASA", - "LaRC", - "Open Source", - "Design and Integration Tools" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Vehicle Sketch Pad (VSP) is an aircraft geometry tool for rapid evaluation of advanced design concepts. Fast and accurate geometry modeling allows the designer to use more complex analysis methods earlier in the design process and reduces reliance on empiricism in conceptual design. VSP includes tools to model and export the internal structural layout.", "identifier": "LAR-17491-1", - "repositoryURL": "https://github.com/nasa/OpenVSP", + "laborHours": 0, + "name": "Vehicle Sketch Pad (VSP)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/OpenVSP/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://github.com/nasa/OpenVSP", + "tags": [ + "NASA", + "LaRC", + "Open Source", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6364" }, - "name": "Fortran Unit Testing Framework (fUnit v1.0)", - "description": "The fUnit software provides a framework for unit-testing Fortran 90, 95, and 2003 code.", - "tags": [ - "NASA", - "LaRC", - "Open Source", - "Data Servers Processing and Handling" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The fUnit software provides a framework for unit-testing Fortran 90, 95, and 2003 code.", "identifier": "LAR-17081-1", - "repositoryURL": "https://sourceforge.net/projects/fortranxunit/", + "laborHours": 0, + "name": "Fortran Unit Testing Framework (fUnit v1.0)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://sourceforge.net/directory/license:bsd/", "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6365" + } + ], + "usageType": "openSource" }, - "name": "ROBUS-2 Fault-Tolerant Broadcast Communication System for Modular Avionics", - "description": "ROBUS-2 is a time-division, multiple-access broadcast communication system that uses a time-indexed communication schedule for medium-access control. The technology provides guaranteed fault-tolerant services that include: message broadcast (Byzantine Agreement), dynamic communication schedule update, time reference (clock synchronization), and distributed diagnosis (group membership).", + "repositoryURL": "https://sourceforge.net/projects/fortranxunit/", "tags": [ "NASA", "LaRC", "Open Source", - "Operations" - ], + "Data Servers Processing and Handling" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6365" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "ROBUS-2 is a time-division, multiple-access broadcast communication system that uses a time-indexed communication schedule for medium-access control. The technology provides guaranteed fault-tolerant services that include: message broadcast (Byzantine Agreement), dynamic communication schedule update, time reference (clock synchronization), and distributed diagnosis (group membership).", "identifier": "LAR-17264-1", - "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/robus-2/", + "laborHours": 0, + "name": "ROBUS-2 Fault-Tolerant Broadcast Communication System for Modular Avionics", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://ti.arc.nasa.gov/opensource/nosa/robus-2/", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/robus-2/", + "tags": [ + "NASA", + "LaRC", + "Open Source", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6366" }, - "name": "Tolerance Domain Specific Language", - "description": "This sensitivity task employs the Monte Carlo method. Thousands of simulations are run with randomly varied input parameters, and then statistical correlations are computed to determine the sensitivity of output parameters to each input parameter.", - "tags": [ - "NASA", - "LaRC", - "Open Source", - "Data and Image Processing" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This sensitivity task employs the Monte Carlo method. Thousands of simulations are run with randomly varied input parameters, and then statistical correlations are computed to determine the sensitivity of output parameters to each input parameter.", "identifier": "LAR-17546-1", - "repositoryURL": "https://github.com/kleb/nasarb/blob/master/uq4sim", + "laborHours": 0, + "name": "Tolerance Domain Specific Language", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/kleb/nasarb/blob/master/uq4sim/License.txt", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6367" + "usageType": "openSource" }, - "name": "Java-Based Software Tool for Dynamic Aerospace Vehicle Exchange Markup Files", - "description": "An update to software originally named DAVEtools 0.5, this software-based technology is used for manipulating standard Dynamic Aerospace Vehicle Exchange Markup Language (DAVE-ML) models. The improved technology embeds the necessary initialization data into a data structure to keep the MATLAB workspace uncluttered and creates Simulink models from a generated MATLAB script.", + "repositoryURL": "https://github.com/kleb/nasarb/blob/master/uq4sim", "tags": [ "NASA", "LaRC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6367" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "An update to software originally named DAVEtools 0.5, this software-based technology is used for manipulating standard Dynamic Aerospace Vehicle Exchange Markup Language (DAVE-ML) models. The improved technology embeds the necessary initialization data into a data structure to keep the MATLAB workspace uncluttered and creates Simulink models from a generated MATLAB script.", "identifier": "LAR-17460-1", - "repositoryURL": "https://github.com/nasa/DAVEtools", + "laborHours": 0, + "name": "Java-Based Software Tool for Dynamic Aerospace Vehicle Exchange Markup Files", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/DAVEtools/blob/master/LICENSE.html", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6368" + "usageType": "openSource" }, - "name": "Java Program to Promote an Open-Source E Standard for Mass Properties Engineering", - "description": "This open-source Java software helps develop electronic standards (E-Standards) for mass properties engineering. An E-Standard is a highly descriptive dataset that includes standardizing functions for data manipulation, interrogation, and formatting. With this tool, any number of users can interface with the proposed E-Standard datasets and still seamlessly utilize their own software methods.", + "repositoryURL": "https://github.com/nasa/DAVEtools", "tags": [ "NASA", "LaRC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6368" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This open-source Java software helps develop electronic standards (E-Standards) for mass properties engineering. An E-Standard is a highly descriptive dataset that includes standardizing functions for data manipulation, interrogation, and formatting. With this tool, any number of users can interface with the proposed E-Standard datasets and still seamlessly utilize their own software methods.", "identifier": "LAR-17635-1", - "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/e-standards-mass-properties-engineering/", + "laborHours": 0, + "name": "Java Program to Promote an Open-Source E Standard for Mass Properties Engineering", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://ti.arc.nasa.gov/opensource//nosa/mpexjava", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6369" + "usageType": "openSource" }, - "name": "CertWare Safety Case Workbench Software", - "description": "This technology contributes several core modules to support safety case models and offers a service-based application programming interface that enables new model-processing capabilities to be plugged into the workbench.", + "repositoryURL": "https://ti.arc.nasa.gov/opensource/projects/e-standards-mass-properties-engineering/", "tags": [ "NASA", "LaRC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6369" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This technology contributes several core modules to support safety case models and offers a service-based application programming interface that enables new model-processing capabilities to be plugged into the workbench.", "identifier": "LAR-18067-1", - "repositoryURL": "https://github.com/nasa/CertWare", + "laborHours": 0, + "name": "CertWare Safety Case Workbench Software", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb636a" - }, - "name": "Kodiak: A Software Library for Verifying Nonlinear Arithmetic Statements", - "description": "Kodiak is a software implementation of an algorithm for verifying expressions involving nonlinear real arithmetic. It includes an optimizer for nonlinear real functions, a solver for nonlinear inequalities, and an application programming interface (API) for integrating other software verification tools.", + "repositoryURL": "https://github.com/nasa/CertWare", "tags": [ "NASA", "LaRC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb636b" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This Excel plugin written in VB.net allows rapid post-processing of thermal analysis data from text files or from SINDA-formatted SAV files. The software can be adapted to other data formats as well.", + "identifier": "LAR-18314-1", + "laborHours": 0, + "name": "FilePlottingTools", "organization": "LaRC", - "identifier": "LAR-18268-1", - "repositoryURL": "https://github.com/nasa/kodiak", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/Kodiak/blob/master/LICENSE.pdf", + "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb636b" - }, - "name": "FilePlottingTools", - "description": "This Excel plugin written in VB.net allows rapid post-processing of thermal analysis data from text files or from SINDA-formatted SAV files. The software can be adapted to other data formats as well.", + "repositoryURL": "https://fileplottingtools.larc.nasa.gov/", "tags": [ "NASA", "LaRC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb636a" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Kodiak is a software implementation of an algorithm for verifying expressions involving nonlinear real arithmetic. It includes an optimizer for nonlinear real functions, a solver for nonlinear inequalities, and an application programming interface (API) for integrating other software verification tools.", + "identifier": "LAR-18268-1", + "laborHours": 0, + "name": "Kodiak: A Software Library for Verifying Nonlinear Arithmetic Statements", "organization": "LaRC", - "identifier": "LAR-18314-1", - "repositoryURL": "https://fileplottingtools.larc.nasa.gov/", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.org/licenses/NASA-1.3", + "URL": "https://github.com/nasa/Kodiak/blob/master/LICENSE.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://github.com/nasa/kodiak", + "tags": [ + "NASA", + "LaRC", + "Open Source", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb636c" }, - "name": "Flight Dynamics Simulation of a Generic Transport Model", - "description": "This software is a flight dynamics simulation of a transport aircraft. It implements general rigid body equations of motion for the vehicle dynamics and draws aerodynamic forces from a standard coefficient expansion implemented as table lookups. Dynamics of actuator servos and bandwidth of sensors are also included. The simulation is coded in Simulink, a model-based environment using a commercial simulation package from Mathworks, Inc. The software is not stand-alone; it must be run from inside this commercial environment, making use of numerical libraries for basic operations as well as the overall time-stepping and numerical integration routines.", - "tags": [ - "NASA", - "LaRC", - "Open Source", - "Design and Integration Tools" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This software is a flight dynamics simulation of a transport aircraft. It implements general rigid body equations of motion for the vehicle dynamics and draws aerodynamic forces from a standard coefficient expansion implemented as table lookups. Dynamics of actuator servos and bandwidth of sensors are also included. The simulation is coded in Simulink, a model-based environment using a commercial simulation package from Mathworks, Inc. The software is not stand-alone; it must be run from inside this commercial environment, making use of numerical libraries for basic operations as well as the overall time-stepping and numerical integration routines.", "identifier": "LAR-17625-1", - "repositoryURL": "https://github.com/nasa/GTM_DesignSim/", + "laborHours": 0, + "name": "Flight Dynamics Simulation of a Generic Transport Model", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/GTM_DesignSim/blob/master/gtm_design/LicenseAgreement.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb636d" + "usageType": "openSource" }, - "name": "Windows Semi-Markov Range Evaluator (WinSURE)", - "description": "This package is used by aerospace flight software developers to predict the reliability of flight-critical computer processes.", + "repositoryURL": "https://github.com/nasa/GTM_DesignSim/", "tags": [ "NASA", "LaRC", "Open Source", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb636d" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This package is used by aerospace flight software developers to predict the reliability of flight-critical computer processes.", "identifier": "LAR-16059-1", - "repositoryURL": "https://github.com/nasa/WinSURE", + "laborHours": 0, + "name": "Windows Semi-Markov Range Evaluator (WinSURE)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://github.com/nasa/WinSURE", + "tags": [ + "NASA", + "LaRC", + "Open Source", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb636e" }, - "name": "GTM_Polysim-Nonlinear GTM Aircraft Polynomial Simulation in MATLAB, Version 2.0", - "description": "The GTM_POLYSIM is a nonlinear simulation of the Generic Transport Model (GTM) aircraft at a 5.5-percent scale. The simulation software is a collection of scripts and programs written and executed in the MATLAB computing environment.", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "Design and Integration Tools" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The GTM_POLYSIM is a nonlinear simulation of the Generic Transport Model (GTM) aircraft at a 5.5-percent scale. The simulation software is a collection of scripts and programs written and executed in the MATLAB computing environment.", "identifier": "LAR-17595-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-17595-1", + "laborHours": 0, + "name": "GTM_Polysim-Nonlinear GTM Aircraft Polynomial Simulation in MATLAB, Version 2.0", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-17595-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb636f" }, - "name": "HZETRN 2015", - "description": "HZETRN2015 is the latest update of the HZETRN deterministic space radiation transport code. HZETRN2015 contains new algorithms and options for calculating three dimensional transport in user-defined combinatorial or ray-trace geometry. More computationally efficient bi-directional transport algorithms, similar to those found in HZETRN2010, may also be used to perform transport through multilayer slabs, or users can opt to create an interpolation database for various thicknesses within one to three user-defined material layers using a straight-ahead transport algorithm, similar to HZETRN2005. Transport calculations may be executed for Galactic Cosmic Ray (GCR), Solar Particle Event (SPE), Low Earth Orbit (LEO), and user-defined environment boundary conditions. Neutrons, protons, and light ions are transported for SPE and LEO boundary conditions, while for GCR boundary conditions, heavy ions, pions, muons, electrons, positrons, and photons are also transported.", - "tags": [ - "NASA", - "LaRC", - "General Public Release", - "Crew and Life Support" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-16" + }, + "description": "HZETRN2015 is the latest update of the HZETRN deterministic space radiation transport code. HZETRN2015 contains new algorithms and options for calculating three dimensional transport in user-defined combinatorial or ray-trace geometry. More computationally efficient bi-directional transport algorithms, similar to those found in HZETRN2010, may also be used to perform transport through multilayer slabs, or users can opt to create an interpolation database for various thicknesses within one to three user-defined material layers using a straight-ahead transport algorithm, similar to HZETRN2005. Transport calculations may be executed for Galactic Cosmic Ray (GCR), Solar Particle Event (SPE), Low Earth Orbit (LEO), and user-defined environment boundary conditions. Neutrons, protons, and light ions are transported for SPE and LEO boundary conditions, while for GCR boundary conditions, heavy ions, pions, muons, electrons, positrons, and photons are also transported.", "identifier": "LAR-18803-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18803-1", + "laborHours": 0, + "name": "HZETRN 2015", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-16" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-18803-1", + "tags": [ + "NASA", + "LaRC", + "General Public Release", + "Crew and Life Support" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6370" }, - "name": "Systems Capability Organization Reporting Engine board (SCOREboard)", - "description": "The Systems Capability Organization Reporting Engine board (SCOREboard) was developed to integrate 12 sometime disparate data sets into a cohesive human exploration capability story that can be used to communicate NASAs exploration investments within the capability driven framework. The SCOREboards are graphical visualizations of SMT capability data that enable the EMC architecture and notional missions. The SCOREboards present an overview of multiple data points (the performance gaps and their durations, the corresponding gap closing tasks, task testing locations, mission need, and mission criticality) that when viewed together provide a roadmap of system maturation critical for the Journey to Mars. The SCOREboards are generated by a computer program that extracts data from the main repository, sorts the data based on a range of categories corresponding to the data structure, then plots the data according to specified user inputs. The ability to sort and plot varying data categories provides the flexibility to present specific SCOREboard capability roadmaps based on customer requests. ", - "tags": [ - "NASA", - "LaRC", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-4-11" + }, + "description": "The Systems Capability Organization Reporting Engine board (SCOREboard) was developed to integrate 12 sometime disparate data sets into a cohesive human exploration capability story that can be used to communicate NASAs exploration investments within the capability driven framework. The SCOREboards are graphical visualizations of SMT capability data that enable the EMC architecture and notional missions. The SCOREboards present an overview of multiple data points (the performance gaps and their durations, the corresponding gap closing tasks, task testing locations, mission need, and mission criticality) that when viewed together provide a roadmap of system maturation critical for the Journey to Mars. The SCOREboards are generated by a computer program that extracts data from the main repository, sorts the data based on a range of categories corresponding to the data structure, then plots the data according to specified user inputs. The ability to sort and plot varying data categories provides the flexibility to present specific SCOREboard capability roadmaps based on customer requests. ", "identifier": "LAR-18852-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18852-1", + "laborHours": 0, + "name": "Systems Capability Organization Reporting Engine board (SCOREboard)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-4-11" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-18852-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6371" + "$oid": "5a3a9b78da833f1e40fb6372" }, - "name": "Parallel Grand Canonical Monte Carlo Simulation Code - ParaGrandMC", - "description": "The Parallel Grand Canonical Monte Carlo simulation code (ParaGrandMC) is a highly parallelized code in FORTRAN for simulating the thermodynamic evolution of metal alloy systems at atomic level, and predicting their thermodynamic state, phase diagram, chemical composition and mechanical properties. The approach taken is based on evolving an initially given atomic system (defined through a list of atomic coordinates of all participating atoms) using Monte Carlo algorithm. The algorithm is based on repeated random sampling of the configuration space of the system using the classical Boltzmann probability distribution. In the process, internal variables of the system, such as system energy, internal pressure, system size (strain), and others, are reported periodically. Atomic configurations, in terms of coordinates of all atoms, are stored periodically for a post-processing analysis, such as phase identification, lattice parameter estimates, free energy integration, etc. The algorithm uses MPI (message passing interface) to work on multi-core CPU platforms allowing simulations of multimilion atom systems. \r\n\r\nThe code is designed to help exploring the phase diagram of multi-component alloy systems, predict solid-state phase transformations such as austenite-martensite transformations, precipitate formation, recrystallization, capillary effects at interfaces, surface absorption, etc., which can aid the design of novel metallic alloys. While the software is mainly tailored for modeling metal alloys, it can also be used for any other types of solid-state systems, and to some degree for liquid or gaseous systems, including multiphase systems forming solid-liquid-gas interfaces. ", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "Materials and Processes" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-5-9" + }, + "description": "The WinASSIST program uses a rule-oriented language to automatically generate input files for the SURE/WinSURE program. The user describes the failure behavior and recovery behavior of a fault-tolerant computer system in an abstract language. The WinASSIST program then automatically generates a corresponding semi-Markov model. The abstract language allows efficient description of large, complex systems. A one-page WinASSIST-language description may result in a semi-Markov model with thousands of states and transitions. The WinASSIST program also provides model-reduction techniques to facilitate efficient modeling of large systems.", + "identifier": "LAR-16060-1", + "laborHours": 0, + "name": "WinASSIST: (Windows Abstract Semi-Markov Specification Interface To The SURE Tool)", "organization": "LaRC", - "identifier": "LAR-18773-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18773-1", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" + "URL": "https://github.com/nasa/WinASSIST/blob/master/src/README", + "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-4-27" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6372" + "usageType": "openSource" }, - "name": "WinASSIST: (Windows Abstract Semi-Markov Specification Interface To The SURE Tool)", - "description": "The WinASSIST program uses a rule-oriented language to automatically generate input files for the SURE/WinSURE program. The user describes the failure behavior and recovery behavior of a fault-tolerant computer system in an abstract language. The WinASSIST program then automatically generates a corresponding semi-Markov model. The abstract language allows efficient description of large, complex systems. A one-page WinASSIST-language description may result in a semi-Markov model with thousands of states and transitions. The WinASSIST program also provides model-reduction techniques to facilitate efficient modeling of large systems.", + "repositoryURL": "https://github.com/nasa/WinASSIST", "tags": [ "NASA", "LaRC", "Open Source", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6371" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-4-27" + }, + "description": "The Parallel Grand Canonical Monte Carlo simulation code (ParaGrandMC) is a highly parallelized code in FORTRAN for simulating the thermodynamic evolution of metal alloy systems at atomic level, and predicting their thermodynamic state, phase diagram, chemical composition and mechanical properties. The approach taken is based on evolving an initially given atomic system (defined through a list of atomic coordinates of all participating atoms) using Monte Carlo algorithm. The algorithm is based on repeated random sampling of the configuration space of the system using the classical Boltzmann probability distribution. In the process, internal variables of the system, such as system energy, internal pressure, system size (strain), and others, are reported periodically. Atomic configurations, in terms of coordinates of all atoms, are stored periodically for a post-processing analysis, such as phase identification, lattice parameter estimates, free energy integration, etc. The algorithm uses MPI (message passing interface) to work on multi-core CPU platforms allowing simulations of multimilion atom systems. \r\n\r\nThe code is designed to help exploring the phase diagram of multi-component alloy systems, predict solid-state phase transformations such as austenite-martensite transformations, precipitate formation, recrystallization, capillary effects at interfaces, surface absorption, etc., which can aid the design of novel metallic alloys. While the software is mainly tailored for modeling metal alloys, it can also be used for any other types of solid-state systems, and to some degree for liquid or gaseous systems, including multiphase systems forming solid-liquid-gas interfaces. ", + "identifier": "LAR-18773-1", + "laborHours": 0, + "name": "Parallel Grand Canonical Monte Carlo Simulation Code - ParaGrandMC", "organization": "LaRC", - "identifier": "LAR-16060-1", - "repositoryURL": "https://github.com/nasa/WinASSIST", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/WinASSIST/blob/master/src/README", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-5-9" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-18773-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Materials and Processes" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6373" }, - "name": "Multi-Attribute Task Battery (MATB-II)", - "description": "MATB-II is a computer-based task battery designed to facilitate research in human multiple task performance with consideration for the effects of automation. The tool includes five component tasks: system monitoring, tracking, communications monitoring, and resource management. A scheduling window provides preview of anticipated workload, and component tasks can be automated or manual. Coded in C++, MATB-II has been tested on the Windows XP Service Pack 3, Windows Vista, and Windows 7 operating systems.", - "tags": [ - "NASA", - "LaRC", - "General Public Release", - "Crew and Life Support" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "MATB-II is a computer-based task battery designed to facilitate research in human multiple task performance with consideration for the effects of automation. The tool includes five component tasks: system monitoring, tracking, communications monitoring, and resource management. A scheduling window provides preview of anticipated workload, and component tasks can be automated or manual. Coded in C++, MATB-II has been tested on the Windows XP Service Pack 3, Windows Vista, and Windows 7 operating systems.", "identifier": "LAR-17835-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-17835-1", + "laborHours": 0, + "name": "Multi-Attribute Task Battery (MATB-II)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-17835-1", + "tags": [ + "NASA", + "LaRC", + "General Public Release", + "Crew and Life Support" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6374" }, - "name": "System/Observer/Controller Identification Toolbox (SOCIT), Macintosh Version", - "description": "SOCIT is a collection of functions, written in MATLAB language and expressed in M-files, that implements a variety of modern system identification techniques. For an open-loop system, it features functions for identification of a system model and corresponding forward and backward observers directly from input and output data. For a closed-loop system, SOCIT identifies an open-loop model, an observer, and corresponding controller gain directly from input and output data.", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "Design and Integration Tools" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "SOCIT is a collection of functions, written in MATLAB language and expressed in M-files, that implements a variety of modern system identification techniques. For an open-loop system, it features functions for identification of a system model and corresponding forward and backward observers directly from input and output data. For a closed-loop system, SOCIT identifies an open-loop model, an observer, and corresponding controller gain directly from input and output data.", "identifier": "LAR-15241", - "repositoryURL": "https://software.nasa.gov/software/LAR-15241", + "laborHours": 0, + "name": "System/Observer/Controller Identification Toolbox (SOCIT), Macintosh Version", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-15241", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6375" }, - "name": "Scalable Implementation of Finite Elements by NASA (ScIFEN)", - "description": "The Scalable Implementation of Finite Elements by NASA (ScIFEN) package is a parallel finite element analysis code written in C++. It is designed to enable scalable solutions to computational mechanics problems by leveraging several open-source high performance computing libraries for numerical linear algebra routines and parallel input/output. ScIFEN supports several different finite element types, nonlinear material models, and boundary conditions and contains both implicit and explicit time integration procedures called ScIFEi and ScIFEx, respectively.", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "Materials and Processes" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-5-9" + }, + "description": "The Scalable Implementation of Finite Elements by NASA (ScIFEN) package is a parallel finite element analysis code written in C++. It is designed to enable scalable solutions to computational mechanics problems by leveraging several open-source high performance computing libraries for numerical linear algebra routines and parallel input/output. ScIFEN supports several different finite element types, nonlinear material models, and boundary conditions and contains both implicit and explicit time integration procedures called ScIFEi and ScIFEx, respectively.", "identifier": "LAR-18720-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18720-1", + "laborHours": 0, + "name": "Scalable Implementation of Finite Elements by NASA (ScIFEN)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-5-9" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-18720-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Materials and Processes" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6376" }, - "name": "Data Transfer Between Dissimilar Meshes (DTBDM, 2.0)", - "description": "Designed to automate an otherwise labor-intensive process, DTBDM puts the aerodynamic loads output of a computational fluid dynamics (CFD) package into the structural model of an aircraft to allow for deflection calculations.", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "Structures and Mechanisms" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Designed to automate an otherwise labor-intensive process, DTBDM puts the aerodynamic loads output of a computational fluid dynamics (CFD) package into the structural model of an aircraft to allow for deflection calculations.", "identifier": "LAR-16371-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-16371-1", + "laborHours": 0, + "name": "Data Transfer Between Dissimilar Meshes (DTBDM, 2.0)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-16371-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Structures and Mechanisms" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6377" }, - "name": "NASA Auralization Framework (NAF)", - "description": "The NASA Auralization Framework (NAF) is an open architecture for auralization components. It is structured as a set of common building blocks in the form of dynamically linked libraries, and will serve as the basis for future auralization capabilities. There are several libraries provided as part of the Framework: a Core Library, a Pathfinder library, a Scene Generator library, a Synthesis library, a Signal Processing library, and a Scheduler library. Each library contains a usable but very simple set of capabilities. An example application and several test cases provided with the Framework demonstrate how to use the libraries together to perform auralization tasks. It is expected that users will build their own customizations on the provided libraries, making use of the underlying framework, to create plugins for NAF that perform more complex operations.", - "tags": [ - "NASA", - "LaRC", - "General Public Release", - "System Testing" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-6-14" + }, + "description": "The NASA Auralization Framework (NAF) is an open architecture for auralization components. It is structured as a set of common building blocks in the form of dynamically linked libraries, and will serve as the basis for future auralization capabilities. There are several libraries provided as part of the Framework: a Core Library, a Pathfinder library, a Scene Generator library, a Synthesis library, a Signal Processing library, and a Scheduler library. Each library contains a usable but very simple set of capabilities. An example application and several test cases provided with the Framework demonstrate how to use the libraries together to perform auralization tasks. It is expected that users will build their own customizations on the provided libraries, making use of the underlying framework, to create plugins for NAF that perform more complex operations.", "identifier": "LAR-18541-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18541-1", + "laborHours": 0, + "name": "NASA Auralization Framework (NAF)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-6-14" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-18541-1", + "tags": [ + "NASA", + "LaRC", + "General Public Release", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6378" }, - "name": "OVERFLOW 2: Overset Grid Computaitonal Fluid Dynamics (CFD)Flow Solver with Moving Body Capability", - "description": "OVERFLOW 2 is a computer code for simulating viscous, compressible fluid flow about complex aerodynamic configurations. The technology solves the Reynolds-averaged Navier-Stokes equations using structured, overset computational grids. It includes the capability for simulating multiple moving bodies acting under prescribed or aerodynamically forced motion. OVERFLOW 2 is a merge of the previously developed OVERFLOW 1.8 and OVERFLOW-D codes.", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "Aeronautics" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "OVERFLOW 2 is a computer code for simulating viscous, compressible fluid flow about complex aerodynamic configurations. The technology solves the Reynolds-averaged Navier-Stokes equations using structured, overset computational grids. It includes the capability for simulating multiple moving bodies acting under prescribed or aerodynamically forced motion. OVERFLOW 2 is a merge of the previously developed OVERFLOW 1.8 and OVERFLOW-D codes.", "identifier": "LAR-17079-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-17079-1", + "laborHours": 0, + "name": "OVERFLOW 2: Overset Grid Computaitonal Fluid Dynamics (CFD)Flow Solver with Moving Body Capability", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-17079-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6379" }, - "name": "Composite Damage (CompDam) Progressive Damage Analysis Software", - "description": "The Composite Damage (CompDam) Progressive Damage Analysis software is developed for the prediction of damage onset, damage progression and structural collapse of structures manufactured of fiber-reinforced plastic laminates. The emphasis has been on development of an analysis capability for application at the structural level. Hence, modeling of damage progression is undertaken at the meso-scale, where each ply of a laminate is represented as a homogenous orthotropic continuum. All of the composite damage mechanisms (matrix cracking, fiber breaking and kinking, and delamination) and their interactions are represented. The CompDam software is implemented as user written subroutines for use with the Abaqus commercial finite element code. Input for CompDam includes ply-level material properties, and interface properties obtained from standard material characterization tests. The output from CompDam includes damage variables associated with each damage mode. These damage variables describe the evolution of damage and are used to generate updated structural constitutive matrices and load redistribution as damage evolves. ", - "tags": [ - "NASA", - "LaRC", - "Open Source", - "Materials and Processes" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-14" + }, + "description": "The Composite Damage (CompDam) Progressive Damage Analysis software is developed for the prediction of damage onset, damage progression and structural collapse of structures manufactured of fiber-reinforced plastic laminates. The emphasis has been on development of an analysis capability for application at the structural level. Hence, modeling of damage progression is undertaken at the meso-scale, where each ply of a laminate is represented as a homogenous orthotropic continuum. All of the composite damage mechanisms (matrix cracking, fiber breaking and kinking, and delamination) and their interactions are represented. The CompDam software is implemented as user written subroutines for use with the Abaqus commercial finite element code. Input for CompDam includes ply-level material properties, and interface properties obtained from standard material characterization tests. The output from CompDam includes damage variables associated with each damage mode. These damage variables describe the evolution of damage and are used to generate updated structural constitutive matrices and load redistribution as damage evolves. ", "identifier": "LAR-18832-1", - "repositoryURL": "https://github.com/nasa/CompDam_DGD", + "laborHours": 0, + "name": "Composite Damage (CompDam) Progressive Damage Analysis Software", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/CompDam_DGD/blob/master/LICENSE.txt", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-14" - } + "repositoryURL": "https://github.com/nasa/CompDam_DGD", + "tags": [ + "NASA", + "LaRC", + "Open Source", + "Materials and Processes" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb637a" }, - "name": "KSOPT - An Indirect Method for Numerical Optimization using the Kreisselmeier-Steinhauser Function - Version 3.1", + "contact": { + "email": "larc-sra@mail.nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-4-6" + }, "description": "This is a technique for converting a constrained optimization problem into an unconstrained problem. The technique transforms one or more objective functions into reduced objective functions analogous to goal constraints used in the goal programming method. The reduced objective\r\nfunctions are appended to the set of constraints and an envelope of the entire function set is computed using the Kreisselmeier-Steinhauser function. This envelope function is then searched for an unconstrained minimum. The technique may be categorized as a SUMT algorithm. Version 3.1 is written in the FORTRAN 90/95 standard and improves upon the robustness of the code by preventing potential memory allocation errors.", + "identifier": "LAR-18488-1", + "laborHours": 0, + "name": "KSOPT - An Indirect Method for Numerical Optimization using the Kreisselmeier-Steinhauser Function - Version 3.1", + "organization": "LaRC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/LAR-18488-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb637c" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "UQTools is a MATLAB-based software package designed to efficiently analyze dynamic systems subject to parametric uncertainty. UQTools accepts uncertainty models based upon both probabilistic and non-probabilistic definitions, and it realizes several complementary methods for performing a variety of uncertainty quantification tasks.", + "identifier": "LAR-17855-1", + "laborHours": 0, + "name": "Uncertainty Quantification Toolbox (UQTools)", "organization": "LaRC", - "identifier": "LAR-18488-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18488-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-4-6" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb637b" - }, - "name": "RANSTEP - Reduced order Analysis using a Nonlinear STiffness Evaluation Procedure", - "description": "A new implementation of reduced order finite-element-based analysis for solving geometrically nonlinear random vibration problems of complex structures has been developed. The implementation is given the acronym RANSTEP for Reduced order Analysis using a Nonlinear STiffness Evaluation Procedure. The nonlinear stiffness evaluation procedure allows computation of otherwise inaccessible modal nonlinear stiffness terms from commercial finite element programs. Some operations are performed outside the commercial codes and utilize in-house developed FORTRAN codes. Additionally Direct Matrix Abstraction Program (DMAP) alters and PYTHON scripts are used to facilitate implementations written about MSC.NASTRAN and ABAQUS, respectively. Two solutions procedures of different fidelity and computational cost are offered in each implementation. They are equivalent linearization and time numerical simulation. Aerospace uses include aircraft and spacecraft structural analysis.", + "repositoryURL": "https://software.nasa.gov/software/LAR-17855-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", - "Structures and Mechanisms" - ], + "Design and Integration Tools" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb637d" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "LASTRAC is a C++ code that analyzes compressible boundary-layer stability and performs transition prediction using the state-of-the-art Linear Stability Theory (LST) or Parabolized Stability Equations (PSE) methods.", + "identifier": "LAR-16260-1", + "laborHours": 0, + "name": "Langley Stability and Transition Analysis Code (LASTRAC)", "organization": "LaRC", - "identifier": "LAR-17262-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-17262-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-8-11" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb637c" - }, - "name": "Uncertainty Quantification Toolbox (UQTools)", - "description": "UQTools is a MATLAB-based software package designed to efficiently analyze dynamic systems subject to parametric uncertainty. UQTools accepts uncertainty models based upon both probabilistic and non-probabilistic definitions, and it realizes several complementary methods for performing a variety of uncertainty quantification tasks.", + "repositoryURL": "https://software.nasa.gov/software/LAR-16260-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", - "Design and Integration Tools" - ], + "Aeronautics" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb637b" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-8-11" + }, + "description": "A new implementation of reduced order finite-element-based analysis for solving geometrically nonlinear random vibration problems of complex structures has been developed. The implementation is given the acronym RANSTEP for Reduced order Analysis using a Nonlinear STiffness Evaluation Procedure. The nonlinear stiffness evaluation procedure allows computation of otherwise inaccessible modal nonlinear stiffness terms from commercial finite element programs. Some operations are performed outside the commercial codes and utilize in-house developed FORTRAN codes. Additionally Direct Matrix Abstraction Program (DMAP) alters and PYTHON scripts are used to facilitate implementations written about MSC.NASTRAN and ABAQUS, respectively. Two solutions procedures of different fidelity and computational cost are offered in each implementation. They are equivalent linearization and time numerical simulation. Aerospace uses include aircraft and spacecraft structural analysis.", + "identifier": "LAR-17262-1", + "laborHours": 0, + "name": "RANSTEP - Reduced order Analysis using a Nonlinear STiffness Evaluation Procedure", "organization": "LaRC", - "identifier": "LAR-17855-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-17855-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb637d" - }, - "name": "Langley Stability and Transition Analysis Code (LASTRAC)", - "description": "LASTRAC is a C++ code that analyzes compressible boundary-layer stability and performs transition prediction using the state-of-the-art Linear Stability Theory (LST) or Parabolized Stability Equations (PSE) methods.", + "repositoryURL": "https://software.nasa.gov/software/LAR-17262-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", - "Aeronautics" - ], + "Structures and Mechanisms" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb637f" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-7" + }, + "description": "In the LaRC UAS Detect and Avoid (DAA) simulation environment, the sensor uncertainty mitigation software module compensates for the error and uncertainty in the output of the air traffic surveillance sensors on board the unmanned aircraft. Its purpose is to provide better alerts and maneuver guidance to the UAS operator.", + "identifier": "LAR-18972-1", + "laborHours": 0, + "name": "Sensor Uncertainty Mitigation (SUM)", "organization": "LaRC", - "identifier": "LAR-16260-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-16260-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-18972-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Government Purpose Release", + "Aeronautics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb637e" }, - "name": "CEOS Data Cube Platform v.2 (CEOS2)", - "description": "The Committee on Earth Observation Satellites (CEOS) has long recognized a need for data processing infrastructure to support Earth science objectives in developing countries. Forest preservation initiatives, carbon measurement initiatives, water management and agricultural monitoring are just few examples of causes that can benefit greatly from remote sensing data. Currently, however, many developing nations lack the in-country expertise and computational infrastructure to utilize remote sensing data.\r\n\r\nThe CEOS Data Cube Platform provides a flexible model to address these needs. The CEOS Data Cube Platform is a data processing platform for Earth science data, with a focus on remote-sensing data. The platform provides a data ingestion framework that includes support for automated ingestion of a wide variety of remote sensing data products. The data products are ingested into an N-dimensional data array that abstracts away management of distinct acquisitions. The platform has a tiered API for data processing and a data/application platform layer for higher-level access.", - "tags": [ - "NASA", - "LaRC", - "Open Source", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-8-15" + }, + "description": "The Committee on Earth Observation Satellites (CEOS) has long recognized a need for data processing infrastructure to support Earth science objectives in developing countries. Forest preservation initiatives, carbon measurement initiatives, water management and agricultural monitoring are just few examples of causes that can benefit greatly from remote sensing data. Currently, however, many developing nations lack the in-country expertise and computational infrastructure to utilize remote sensing data.\r\n\r\nThe CEOS Data Cube Platform provides a flexible model to address these needs. The CEOS Data Cube Platform is a data processing platform for Earth science data, with a focus on remote-sensing data. The platform provides a data ingestion framework that includes support for automated ingestion of a wide variety of remote sensing data products. The data products are ingested into an N-dimensional data array that abstracts away management of distinct acquisitions. The platform has a tiered API for data processing and a data/application platform layer for higher-level access.", "identifier": "LAR-18928-1", - "repositoryURL": "https://github.com/ceos-seo/Data_Cube_v2", + "laborHours": 0, + "name": "CEOS Data Cube Platform v.2 (CEOS2)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/ceos-seo/Data_Cube_v2/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-8-15" - } + "repositoryURL": "https://github.com/ceos-seo/Data_Cube_v2", + "tags": [ + "NASA", + "LaRC", + "Open Source", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb637f" + "$oid": "5a3a9b78da833f1e40fb6381" }, - "name": "Sensor Uncertainty Mitigation (SUM)", - "description": "In the LaRC UAS Detect and Avoid (DAA) simulation environment, the sensor uncertainty mitigation software module compensates for the error and uncertainty in the output of the air traffic surveillance sensors on board the unmanned aircraft. Its purpose is to provide better alerts and maneuver guidance to the UAS operator.", - "tags": [ - "NASA", - "LaRC", - "U.S. Government Purpose Release", - "Aeronautics" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-20" + }, + "description": "NASA's ez4d software is a time-accurate three-dimensional Navier-Stokes solver for unstructured meshes. The ez4d software framework utilizes generic template programming in C++ to allow users to extend the code for simulations of any general conservation laws. Shared-memory multi-thread as well as distributed-memory MPI paradigms are implemented in ez4d to facilitate efficient large-scale parallel numerical simulations.", + "identifier": "LAR-16798-GS", + "laborHours": 0, + "name": "EZ4D", "organization": "LaRC", - "identifier": "LAR-18972-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18972-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-7" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6380" + "usageType": "governmentWideReuse" }, - "name": "Multiphysics Algorithm with Particles (MAP)", - "description": "The Multiphysics Algorithm with Particles (MAP) is a multidimensional adaptive Cartesian implementation of the direct simulation Monte Carlo (DSMC) method with paralellization capabilities using MPI. The DSMC method is widely used for the modeling of gas flows through the computation of the motion and collisions of representative molecules. Computation at the molecular level is necessary for studies in rarefied gas dynamics (RGD) because the transport terms in the Navier-Stokes equations are not valid in this flow regime. The essential characteristic of a \"rarefied\" flow is that the molecular mean free path is not negligible.\r\n\r\nThe software has been designed to be as automated as possible to achieve a quality solution with minimal user input and control by performing dynamic adaptations of the grid, local time step, and surface temperature. The gas model includes internal degrees of freedom (rotational, vibrational, and electronic), gas phase chemical reactions, and surface reactions. MAP uses an N-Level embedded Cartesian grid system and a separate surface geometry that is embedded within the grid that is made up of unstructured triangular elements.", + "repositoryURL": "https://software.nasa.gov/software/LAR-16798-GS", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6380" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-8-4" + }, + "description": "The Multiphysics Algorithm with Particles (MAP) is a multidimensional adaptive Cartesian implementation of the direct simulation Monte Carlo (DSMC) method with paralellization capabilities using MPI. The DSMC method is widely used for the modeling of gas flows through the computation of the motion and collisions of representative molecules. Computation at the molecular level is necessary for studies in rarefied gas dynamics (RGD) because the transport terms in the Navier-Stokes equations are not valid in this flow regime. The essential characteristic of a \"rarefied\" flow is that the molecular mean free path is not negligible.\r\n\r\nThe software has been designed to be as automated as possible to achieve a quality solution with minimal user input and control by performing dynamic adaptations of the grid, local time step, and surface temperature. The gas model includes internal degrees of freedom (rotational, vibrational, and electronic), gas phase chemical reactions, and surface reactions. MAP uses an N-Level embedded Cartesian grid system and a separate surface geometry that is embedded within the grid that is made up of unstructured triangular elements.", "identifier": "LAR-18801-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18801-1", + "laborHours": 0, + "name": "Multiphysics Algorithm with Particles (MAP)", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-8-4" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6381" + "usageType": "governmentWideReuse" }, - "name": "EZ4D", - "description": "NASA's ez4d software is a time-accurate three-dimensional Navier-Stokes solver for unstructured meshes. The ez4d software framework utilizes generic template programming in C++ to allow users to extend the code for simulations of any general conservation laws. Shared-memory multi-thread as well as distributed-memory MPI paradigms are implemented in ez4d to facilitate efficient large-scale parallel numerical simulations.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18801-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6382" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-8" + }, + "description": "The Generic Transport model is a simplified flight simulation model of a typical transport aircraft using the Langley Standard Simulation in C++ (LaSRS++) framework. It was designed to provide similar, but not exact, representation of aircraft performance. The emphasis was on flexibility and simplicity. Originally the intent was to use the model for testing simulation hardware and for demonstrations. No proprietary data is used in the model. Most of the coefficients are linearized, and based on the set of parameters provided in Roskam, Airplane Flight Dynamics (Reference 1) when available. The intent was that any other transport aircraft could be modeled at the same level by providing the equivalent set of data. (Appendix C describes levels of simulation modeling.) This makes it possible to model different aircraft by reading in the values from a file.", + "identifier": "LAR-18909-1", + "laborHours": 0, + "name": "Generic Transport Simulation Model (GTSM)", "organization": "LaRC", - "identifier": "LAR-16798-GS", - "repositoryURL": "https://software.nasa.gov/software/LAR-16798-GS", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-7-20" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6382" + "usageType": "governmentWideReuse" }, - "name": "Generic Transport Simulation Model (GTSM)", - "description": "The Generic Transport model is a simplified flight simulation model of a typical transport aircraft using the Langley Standard Simulation in C++ (LaSRS++) framework. It was designed to provide similar, but not exact, representation of aircraft performance. The emphasis was on flexibility and simplicity. Originally the intent was to use the model for testing simulation hardware and for demonstrations. No proprietary data is used in the model. Most of the coefficients are linearized, and based on the set of parameters provided in Roskam, Airplane Flight Dynamics (Reference 1) when available. The intent was that any other transport aircraft could be modeled at the same level by providing the equivalent set of data. (Appendix C describes levels of simulation modeling.) This makes it possible to model different aircraft by reading in the values from a file.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18909-1", "tags": [ "NASA", "LaRC", "U.S. Government Purpose Release", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6383" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-7" + }, + "description": "This MATLAB software first reads in temperature data measured from two thermocouples embedded in a heat conducting specimen. The software also reads in the thermophysical properties for the heat conducting specimen. After filtering noise from the measured temperature data, the software then uses the filtered data and thermophysical properties to solve both a direct and inverse heat conduction problem to estimate both temperature and heat flux on the external surface of the specimen.", + "identifier": "LAR-18924-1", + "laborHours": 0, + "name": "Inverse Heat Conduction Solver Using MATLAB [IHC Solve]", "organization": "LaRC", - "identifier": "LAR-18909-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18909-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-8" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6383" + "usageType": "governmentWideReuse" }, - "name": "Inverse Heat Conduction Solver Using MATLAB [IHC Solve]", - "description": "This MATLAB software first reads in temperature data measured from two thermocouples embedded in a heat conducting specimen. The software also reads in the thermophysical properties for the heat conducting specimen. After filtering noise from the measured temperature data, the software then uses the filtered data and thermophysical properties to solve both a direct and inverse heat conduction problem to estimate both temperature and heat flux on the external surface of the specimen.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18924-1", "tags": [ "NASA", "LaRC", "U.S. Government Purpose Release", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6384" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-12" + }, + "description": "BL2D: An efficient and fourth-order accurate method to compute two-dimensional and axisymmetric boundary layers on aerospace vehicle wings from low-speed to hypersonic speeds.\r\n\r\nAerospace applications include boundary-layer stability analysis, transonic wing design, laminar flow wing design.\r\n", + "identifier": "LAR-16713-GS", + "laborHours": 0, + "name": "BL2D- Two-Dimensional And Axisymmetric Boundary Layer Code", "organization": "LaRC", - "identifier": "LAR-18924-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18924-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-7" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6384" + "usageType": "governmentWideReuse" }, - "name": "BL2D- Two-Dimensional And Axisymmetric Boundary Layer Code", - "description": "BL2D: An efficient and fourth-order accurate method to compute two-dimensional and axisymmetric boundary layers on aerospace vehicle wings from low-speed to hypersonic speeds.\r\n\r\nAerospace applications include boundary-layer stability analysis, transonic wing design, laminar flow wing design.\r\n", + "repositoryURL": "https://software.nasa.gov/software/LAR-16713-GS", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6385" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-20" + }, + "description": "This toolbox generates shapefiles from the most recently acquired Landsat 8, Landsat 8 Surface Reflectance, and Sentinel-2 imagery over the Winam Gulf in Kenya depicting locations where water hyacinth in most likely present.", + "identifier": "LAR-18869-1", + "laborHours": 0, + "name": "Surface Aquatic Vegetation Detection Tool (SAVDT)", "organization": "LaRC", - "identifier": "LAR-16713-GS", - "repositoryURL": "https://software.nasa.gov/software/LAR-16713-GS", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" + "URL": "https://github.com/NASA-DEVELOP/SAVDT/blob/master/LICENSE.md", + "name": "NASA v3" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-12" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6385" + "usageType": "openSource" }, - "name": "Surface Aquatic Vegetation Detection Tool (SAVDT)", - "description": "This toolbox generates shapefiles from the most recently acquired Landsat 8, Landsat 8 Surface Reflectance, and Sentinel-2 imagery over the Winam Gulf in Kenya depicting locations where water hyacinth in most likely present.", + "repositoryURL": "https://github.com/NASA-DEVELOP/SAVDT", "tags": [ "NASA", "LaRC", "Open Source", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6386" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "As the size and complexity of three dimensional volume grids increases, there is a growing need for fast and efficient 3D volumetric elliptic grid solvers. Present day solvers are limited by computational speed and do not have all the capabilities such as interior volume grid clustering control, viscous grid clustering at the wall of a configuration, truncation error limiters, block-to-block C-I continuity, convergence optimization, and MPI parallel computing residing in one code. A new volume grid generator, 3DGRAPE/AL (Three-Dimensional Grids about Anything by Poisson Equations with Ames and Langley upgrades), which is based on the original 3DGRAPE and 3DMAGGS codes, has evolved to meet these needs. The distribution comes with the source code, installation instructions, sample problems, and pre- and post-processors for evaluating grid smoothing convergence and interfacing to GRIDGEN/POINTWISE.", + "identifier": "LAR-16415-1", + "laborHours": 0, + "name": "3DGRAPE/AL, Version 2", "organization": "LaRC", - "identifier": "LAR-18869-1", - "repositoryURL": "https://github.com/NASA-DEVELOP/SAVDT", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/NASA-DEVELOP/SAVDT/blob/master/LICENSE.md", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-20" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6386" + "usageType": "governmentWideReuse" }, - "name": "3DGRAPE/AL, Version 2", - "description": "As the size and complexity of three dimensional volume grids increases, there is a growing need for fast and efficient 3D volumetric elliptic grid solvers. Present day solvers are limited by computational speed and do not have all the capabilities such as interior volume grid clustering control, viscous grid clustering at the wall of a configuration, truncation error limiters, block-to-block C-I continuity, convergence optimization, and MPI parallel computing residing in one code. A new volume grid generator, 3DGRAPE/AL (Three-Dimensional Grids about Anything by Poisson Equations with Ames and Langley upgrades), which is based on the original 3DGRAPE and 3DMAGGS codes, has evolved to meet these needs. The distribution comes with the source code, installation instructions, sample problems, and pre- and post-processors for evaluating grid smoothing convergence and interfacing to GRIDGEN/POINTWISE.", + "repositoryURL": "https://software.nasa.gov/software/LAR-16415-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6388" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "Timeline Builder Assistant is intended to support initial surface operations planning by quickly building mission timelines with the \"Building Blocks\" method. The result produces a possible approach to completing all mission requirements and is intended for basic feasibility analysis. To build a new timeline, the user is prompted to enter the name of each building block and the number of times it is to be used. The program builds an EVA timeline to complete science and exploration objectives while complying with current human spaceflight limits on the number of hours of EVA allowed per day and week. At completion, the program displays the timeline, number of days to complete all requirements, number of rest days, and number of sites visited. The database keeps a record of activities and building blocks used in all surface missions and is easily searchable by the user or the program.", + "identifier": "LAR-18726-1", + "laborHours": 0, + "name": "Timeline Builder Assistant (TBA)", "organization": "LaRC", - "identifier": "LAR-16415-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-16415-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-18726-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Operations" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6387" }, - "name": "PolyCARP: Algorithms and Software for Computations with Polygons", - "description": "PolyCARP is a package of algorithms, including both their formal models and software implementations, for computing containment, collision, resolution, and recovery information for polygons. 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There are also collision detection algorithms that determine if a moving point intersects a polygon, including the case where the polygon is moving or even warping over time, as well as where the polygon and the point are following piecewise linear trajectories. There are algorithms that resolve potential collisions between and point and a polygon by providing collision-free trajectories, and there are algorithms that compute new trajectories to regain separation from a polygon.", - "tags": [ - "NASA", - "LaRC", - "Open Source", - "Autonomous Systems" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-14" + }, + "description": "PolyCARP is a package of algorithms, including both their formal models and software implementations, for computing containment, collision, resolution, and recovery information for polygons. 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There are also collision detection algorithms that determine if a moving point intersects a polygon, including the case where the polygon is moving or even warping over time, as well as where the polygon and the point are following piecewise linear trajectories. 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The result produces a possible approach to completing all mission requirements and is intended for basic feasibility analysis. To build a new timeline, the user is prompted to enter the name of each building block and the number of times it is to be used. The program builds an EVA timeline to complete science and exploration objectives while complying with current human spaceflight limits on the number of hours of EVA allowed per day and week. At completion, the program displays the timeline, number of days to complete all requirements, number of rest days, and number of sites visited. The database keeps a record of activities and building blocks used in all surface missions and is easily searchable by the user or the program.", - "tags": [ - "NASA", - "LaRC", - "U.S. Release Only", - "Operations" - ], "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This system sizes Thermal Protection Systems based on simple flight path angle assessments and mass properties of the vehicle. It provides estimates of heat loads and relevant materials.", + "identifier": "LAR-18742-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Thermal Protection System Sizing Tool", "organization": "LaRC", - "identifier": "LAR-18726-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18726-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } + "repositoryURL": "https://software.nasa.gov/software/LAR-18742-1", + "tags": [ + "NASA", + "LaRC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6389" }, - "name": "Low Fidelity Space Systems Analysis Tools-Short Duration Habitat Sizing Tool", + "contact": { + "email": "larc-sra@mail.nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, "description": "This tool sizes short duration human habitats for short missions less than 20 days based on identified human operations requirements.", + "identifier": "LAR-18738-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Short Duration Habitat Sizing Tool", + "organization": "LaRC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" + } + ], + "usageType": "governmentWideReuse" + }, + "repositoryURL": "https://software.nasa.gov/software/LAR-18738-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb638c" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "The system uses lifetime, chosen archetype and EOL power demand to determine the mass and power characteristics of a fission power system. ", + "identifier": "LAR-18745-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Fission Power Sizing Tool", "organization": "LaRC", - "identifier": "LAR-18738-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18738-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb638a" + "usageType": "governmentWideReuse" }, - "name": "Low Fidelity Space Systems Analysis Tools-Thermal Protection System Sizing Tool", - "description": "This system sizes Thermal Protection Systems based on simple flight path angle assessments and mass properties of the vehicle. It provides estimates of heat loads and relevant materials.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18745-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6391" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This tool sizes small or one-way/one time use vehicles for propulsive manuvers both in and out of atmosphere. The system will provide rough Figure of Merit (FOM) estimates of mass, power, volume, and ephemeris/trajectory change capacity, and provide a rough breakdown of the intert masses, propulsive masses and payload masses. Additionally, the system provides context for the mass breakdown and is intended for small vehicles doing one or two manuvers. Small Vehicle Sizing Tool uses Microsoft Excel.", + "identifier": "LAR-18739-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-One-Way/Small Vehicle Sizing Tool", "organization": "LaRC", - "identifier": "LAR-18742-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18742-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb638b" + "usageType": "governmentWideReuse" }, - "name": "Low Fidelity Space Systems Analysis Tools- Body-Centric Orbit Change Tool", - "description": "This tool provides dV requirements for orbit changes in inclination, periapsis and apoapsis.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18739-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb638b" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, - "organization": "LaRC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This tool provides dV requirements for orbit changes in inclination, periapsis and apoapsis.", "identifier": "LAR-18746-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18746-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools- Body-Centric Orbit Change Tool", + "organization": "LaRC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb638c" + "usageType": "governmentWideReuse" }, - "name": "Low Fidelity Space Systems Analysis Tools-Fission Power Sizing Tool", - "description": "The system uses lifetime, chosen archetype and EOL power demand to determine the mass and power characteristics of a fission power system. ", + "repositoryURL": "https://software.nasa.gov/software/LAR-18746-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6392" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This tool provides a rough mass estimate of ground campaign equipment.", + "identifier": "LAR-18752-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Destination Campaign Tools", "organization": "LaRC", - "identifier": "LAR-18745-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18745-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb638d" + "usageType": "governmentWideReuse" }, - "name": "Low Fidelity Space Systems Analysis Tools-Heliocentric Trajectory Tool", - "description": "This tool is produced is take advantage of pre-existing resources of known lambert trajectory solutions to various bodies, NEA's and more. This database is created and maintained by Ames Research Center and provides a two significant figure estimate of the injection deltaV to get to the desired orbit and the insertion dV to stop at the location. Additionally, it does calculate flyby maneuver effects.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18752-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb638e" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This tool is designed to provide rough estimates for a landing on the surface of a planet with no atmosphere. Data from this tool is used to drive sizing calculations later.", + "identifier": "LAR-18743-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Planetary Ascent/Descent dV Tool", "organization": "LaRC", - "identifier": "LAR-18744-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18744-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb638e" - }, - "name": "Low Fidelity Space Systems Analysis Tools-Planetary Ascent/Descent dV Tool", - "description": "This tool is designed to provide rough estimates for a landing on the surface of a planet with no atmosphere. Data from this tool is used to drive sizing calculations later.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18743-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6393" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This tool sizes solar power systems utilizing batteries, fuel cells and solar cells and calculates the mass, power and potential volume requirements of the system. It will provide a rough estimate of the sizes of the cells, the tank volumes and masses for the fuel cells and determining decay rates and BOL/EOL power generation demands. \r\n", + "identifier": "LAR-18740-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Solar Cell/Fuel Cell/Battery Sizing tool", "organization": "LaRC", - "identifier": "LAR-18743-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18743-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb638f" + "usageType": "governmentWideReuse" }, - "name": "Low Fidelity Space Systems Analysis Tools-ISRU Demo Plant Sizing Tool", - "description": "The Agile ISRU Demo Plant Sizing Tool will provide a rough parametric estimate of ISRU plant mass and power requirements based on fitting data to a heritage curve. NEO, Phobos, Lunar Surface, and Martian Surface are included at a notional level within this system that allows architecture designers to roughly scale ISRU plants before talking to specialists.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18740-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6395" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This tool sizes rough orbiter buses that include avionics, science payloads (user choice) and a scientific mass fraction and produces a baseball card for presentation. ", + "identifier": "LAR-18736-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Orbiter Sizing Tool", "organization": "LaRC", - "identifier": "LAR-18734-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18734-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6390" + "usageType": "governmentWideReuse" }, - "name": "Low Fidelity Space Systems Analysis Tools-Long Duration Habitat Sizing Tool", - "description": "This tool does parametric sizing of long term human habitats based on duration and crew size up to ten members", + "repositoryURL": "https://software.nasa.gov/software/LAR-18736-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6396" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This tool will design a large vehicle and do inert mass fraction sizing to scale a vehicle for multiple impulsive maneuvers and different payloads.", + "identifier": "LAR-18733-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Multiburn/Large Vehicle Sizing Tool", "organization": "LaRC", - "identifier": "LAR-18737-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18737-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6391" + "usageType": "governmentWideReuse" }, - "name": "Low Fidelity Space Systems Analysis Tools-One-Way/Small Vehicle Sizing Tool", - "description": "This tool sizes small or one-way/one time use vehicles for propulsive manuvers both in and out of atmosphere. The system will provide rough Figure of Merit (FOM) estimates of mass, power, volume, and ephemeris/trajectory change capacity, and provide a rough breakdown of the intert masses, propulsive masses and payload masses. Additionally, the system provides context for the mass breakdown and is intended for small vehicles doing one or two manuvers. Small Vehicle Sizing Tool uses Microsoft Excel.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18733-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6394" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This tool is intended to support mission architecture designers design simple orbits for vehicles entering into sphere of influence of a planet from heliocentric space. It allows architects to put in information about the dV or C3 energy state and provide information about the desired parking orbit. From either C3 or dV, it calculates the remainder dV required to take the vehicle and place it in the desired orbit based on the planet and its sphere of influence.", + "identifier": "LAR-18741-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Body Centric Insertion Tool", "organization": "LaRC", - "identifier": "LAR-18739-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18739-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6392" + "usageType": "governmentWideReuse" }, - "name": "Low Fidelity Space Systems Analysis Tools-Destination Campaign Tools", - "description": "This tool provides a rough mass estimate of ground campaign equipment.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18741-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6397" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This tool is intended to be used to science scientific rover missions based on a heritage catalogue of scientific components as well as relationships between scientific tool mass and total rover body mass.", + "identifier": "LAR-18735-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Rover Sizing Tool", "organization": "LaRC", - "identifier": "LAR-18752-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18752-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6393" + "usageType": "governmentWideReuse" }, - "name": "Low Fidelity Space Systems Analysis Tools-Solar Cell/Fuel Cell/Battery Sizing tool", - "description": "This tool sizes solar power systems utilizing batteries, fuel cells and solar cells and calculates the mass, power and potential volume requirements of the system. It will provide a rough estimate of the sizes of the cells, the tank volumes and masses for the fuel cells and determining decay rates and BOL/EOL power generation demands. \r\n", + "repositoryURL": "https://software.nasa.gov/software/LAR-18735-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6398" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-28" + }, + "description": "The DRIP-SLIP model automatically analyzes red band spectral information and soil moisture information derived from Landsat 8 and ASTER and SRTM data, at a fine to moderate resolutions, to determine areas that might be new landslides. 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", + "repositoryURL": "https://github.com/NASA-DEVELOP/LaSTMoV", "tags": [ "NASA", "LaRC", - "U.S. Release Only", - "Design and Integration Tools" - ], + "Open Source", + "Data and Image Processing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6390" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "This tool does parametric sizing of long term human habitats based on duration and crew size up to ten members", + "identifier": "LAR-18737-1", + "laborHours": 0, + "name": "Low Fidelity Space Systems Analysis Tools-Long Duration Habitat Sizing Tool", "organization": "LaRC", - "identifier": "LAR-18736-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18736-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6396" + "usageType": "governmentWideReuse" }, - "name": "Low Fidelity Space Systems Analysis Tools-Multiburn/Large Vehicle Sizing Tool", - "description": "This tool will design a large vehicle and do inert mass fraction sizing to scale a vehicle for multiple impulsive maneuvers and different payloads.", + "repositoryURL": "https://software.nasa.gov/software/LAR-18737-1", "tags": [ "NASA", "LaRC", "U.S. Release Only", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb638f" + }, "contact": { "email": "larc-sra@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-23" + }, + "description": "The Agile ISRU Demo Plant Sizing Tool will provide a rough parametric estimate of ISRU plant mass and power requirements based on fitting data to a heritage curve. 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A discretely-exact adjoint solver enables efficient gradient-based design and grid adaptation to reduce estimated discretization error.", + "repositoryURL": "https://github.com/nasa/wellclear", "tags": [ "NASA", "LaRC", - "U.S. Release Only", + "Open Source", "Aeronautics" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63aa" + }, "contact": { - "email": "larc-sra@mail.nasa.gov" + "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "LaRC", - "identifier": "LAR-18968-1", - "repositoryURL": "https://software.nasa.gov/software/LAR-18968-1", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Video Image Stabilization and Registration (VISAR) is a software program that will stabilize video images distorted as a result of video camera motion.", + "identifier": "MFS-31243-1", + "laborHours": 0, + "name": "Video Image Stabilization and Registration (VISAR)", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-9-21" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb63aa" + "usageType": "governmentWideReuse" }, - "name": "Video Image Stabilization and Registration (VISAR)", - "description": "Video Image Stabilization and Registration (VISAR) is a software program that will stabilize video images distorted as a result of video camera motion.", + "repositoryURL": "https://software.nasa.gov/software/MFS-31243-1", "tags": [ "NASA", "MSFC", "U.S. Government Purpose Release", "Data and Image Processing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63ab" + }, "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Vehicle Acoustic Environment Prediction Program was developed in 1988 and used in Phase A acoustic environments for engine testing in flight vehicles at liftoff.", + "identifier": "MFS-31904-1", + "laborHours": 0, + "name": "Vehicle Acoustic Environment Prediction Program", "organization": "MSFC", - "identifier": "MFS-31243-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31243-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb63ab" + "usageType": "governmentWideReuse" }, - "name": "Vehicle Acoustic Environment Prediction Program", - "description": "The Vehicle Acoustic Environment Prediction Program was developed in 1988 and used in Phase A acoustic environments for engine testing in flight vehicles at liftoff.", + "repositoryURL": "https://software.nasa.gov/software/MFS-31904-1", "tags": [ "NASA", "MSFC", "U.S. Government Purpose Release", "System Testing" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63a9" + }, "contact": { - "email": "msfc-sra-team@mail.nasa.gov" + "email": "larc-sra@mail.nasa.gov" }, - "organization": "MSFC", - "identifier": "MFS-31904-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31904-1", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-9-21" + }, + "description": "FUN3D version 13.0 is a suite of computational fluid dynamics simulation and design tools that uses mixed-element unstructured grids in a large number of formats, including structured multiblock and overset grid systems. 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An interactive Web page can be found at: http://science.nasa.gov/realtime/jtrack/3d/JTrack3D.html/", + "identifier": "MFS-32013-1", + "laborHours": 0, + "name": "J-Track 3D Satellite Tracking Application", "organization": "MSFC", - "identifier": "MFS-31383-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31383-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb63ae" + "usageType": "governmentWideReuse" }, - "name": "J-Track 3D Satellite Tracking Application", - "description": "J-Track 3D is a projection that displays numerous satellites in orbit around the Earth. The technology provides a set of Java components integrated with Web pages, back-end processes, and an SQL database and scripts to provide a suite of satellite tracking services. Features include optional ground trace and orbit trace. An interactive Web page can be found at: http://science.nasa.gov/realtime/jtrack/3d/JTrack3D.html/", + "repositoryURL": "https://software.nasa.gov/software/MFS-32013-1", "tags": [ "NASA", "MSFC", "U.S. Release Only", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63ad" + }, "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The PACRATS data acquisition program allows test engineers to acquire, display, store, and retrieve test data.", + "identifier": "MFS-31383-1", + "laborHours": 0, + "name": "Payloads and Components Real-Time Automated Test System (PACRATS)", "organization": "MSFC", - "identifier": "MFS-32013-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-32013-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-31383-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Release Only", + "System Testing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63af" }, - "name": "Tool for Analysis of Surface Cracks (TASC)", - "description": "Created using the commercial math analysis software MATLAB, TASC enables the easy computation of nonlinear J-integral solutions for surface-cracked plates in tension by accessing and interpolating between the 600 nonlinear surface crack solutions documented in NASA/TP-2011-217480. 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", "identifier": "MFS-33082-1", - "repositoryURL": "https://sourceforge.net/projects/tascnasa/", + "laborHours": 0, + "name": "Tool for Analysis of Surface Cracks (TASC)", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://sourceforge.net/projects/tascnasa/files/TASC_NASA_Open_Source_Agreement.pdf/download", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://sourceforge.net/projects/tascnasa/", + "tags": [ + "NASA", + "MSFC", + "Open Source", + "Materials and Processes" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63b0" }, - "name": "Managed Automation Environment for Simulation, Test, and Real-time Operations (MAESTRO) Software Pre-release", - "description": "MAESTRO is a suite of tools that assist in the setup, configuration control, and operation of a simulation/test laboratory. 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Components include engineering unit encoders, math functions, a task scheduler built on top of pthreads, a publish/subscribe data distribution system, and a Lua scripting language interface.", - "tags": [ - "NASA", - "MSFC", - "Open Source", - "Data Servers Processing and Handling" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "MSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-6-2" + }, + "description": "A set of libraries used in the development of software applications. libSPRITE was specifically designed for real-time systems that operate on a single computational node (but may be multi-core) to systematically address common coding errors, provide for multi-threaded programming to produce the exact same results regardless of the number of cores on the host compute node, and offer support for in-operation reconfigurability (parameter and control flow modifications). Components include engineering unit encoders, math functions, a task scheduler built on top of pthreads, a publish/subscribe data distribution system, and a Lua scripting language interface.", "identifier": "MFS-33231-1", - "repositoryURL": "https://github.com/nasa/libSPRITE/", + "laborHours": 0, + "name": "libSPRITE", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/libSPRITE/blob/master/license.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-6-2" - } + "repositoryURL": "https://github.com/nasa/libSPRITE/", + "tags": [ + "NASA", + "MSFC", + "Open Source", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63b2" }, - "name": "Arnold Mirror Modeler Software", - "description": "This software creates complex finite element models of large-format, lightweight mirrors for complete input decks. Before, building these models could take engineers weeks or even months to complete a single iteration. Now the modeler tool can do the same task in minutes. The software creates many levels of model complexity, from single mirrors (circular or hexagonal shapes) to arrays of mirror segments. Models can have local reinforcement surrounding attachment points, and mesh can be refined (doubled) as many times as necessary.", - "tags": [ - "NASA", - "MSFC", - "U.S. Government Purpose Release", - "Design and Integration Tools" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "MSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-6-5" + }, + "description": "This software creates complex finite element models of large-format, lightweight mirrors for complete input decks. Before, building these models could take engineers weeks or even months to complete a single iteration. Now the modeler tool can do the same task in minutes. 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Models can have local reinforcement surrounding attachment points, and mesh can be refined (doubled) as many times as necessary.", "identifier": "MFS-33271-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-33271-1", + "laborHours": 0, + "name": "Arnold Mirror Modeler Software", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-6-5" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-33271-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63b3" }, - "name": "Autonomous Real Time Requirements Tracing (ART)", - "description": "This NASA software offers the ability to directly trace the real-time execution of software to specific requirements, a unique capability that can only be performed with a Timeliner-TLX system, as no other computer languages directly report this data during execution. The tracing feature does not impose input/output requirements (e.g., print/write statements) on the targeted software because the tracing is performed by an outside program executing separately. The Timeliner-TLX language is currently used for auto-procedures on the International Space Station (ISS) and the Autonomous Mission Operations (AMO) project, and future manned deep-space missions will require the use of extensive auto-procedures to assist in remote intelligent operations.\r\n", - "tags": [ - "NASA", - "MSFC", - "U.S. Government Purpose Release", - "Autonomous Systems" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "MSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-6-10" + }, + "description": "This NASA software offers the ability to directly trace the real-time execution of software to specific requirements, a unique capability that can only be performed with a Timeliner-TLX system, as no other computer languages directly report this data during execution. The tracing feature does not impose input/output requirements (e.g., print/write statements) on the targeted software because the tracing is performed by an outside program executing separately. The Timeliner-TLX language is currently used for auto-procedures on the International Space Station (ISS) and the Autonomous Mission Operations (AMO) project, and future manned deep-space missions will require the use of extensive auto-procedures to assist in remote intelligent operations.\r\n", "identifier": "MFS-33209-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-33209-1", + "laborHours": 0, + "name": "Autonomous Real Time Requirements Tracing (ART)", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-6-10" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-33209-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Government Purpose Release", + "Autonomous Systems" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63b4" }, - "name": "Simple Thermal Environment Model (STEM) User's Guide", - "description": "Helpful in the thermal analysis of near-Earth spacecraft, the STEM User's Guide is a Fortran-based program that provides engineering estimates of top-of-atmosphere albedo and outgoing longwave radiation. 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", "identifier": "MFS-31728-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31728-1", + "laborHours": 0, + "name": "Simple Thermal Environment Model (STEM) User's Guide", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-31728-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Release Only", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63b5" }, - "name": "Materials and Processes Technical Information System (MAPTIS-II)", - "description": "The Materials and Processes Technical Information System (MAPTIS-II) is an information technology that offers a number of services for acquiring, processing, and disseminating information about materials, materials properties, materials processes, and manufacturing. Content includes materials test results from legacy systems, design allowables, and other online products. The MAPTIS-II technology provides ready access to accurate data using standard computers, software, and the Internet. ", - "tags": [ - "NASA", - "MSFC", - "U.S. Government Purpose Release", - "Materials and Processes" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "MSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Materials and Processes Technical Information System (MAPTIS-II) is an information technology that offers a number of services for acquiring, processing, and disseminating information about materials, materials properties, materials processes, and manufacturing. Content includes materials test results from legacy systems, design allowables, and other online products. The MAPTIS-II technology provides ready access to accurate data using standard computers, software, and the Internet. ", "identifier": "MFS-32206-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-32206-1", + "laborHours": 0, + "name": "Materials and Processes Technical Information System (MAPTIS-II)", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-32206-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Government Purpose Release", + "Materials and Processes" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63b6" }, - "name": "Formation Flying System for Unmanned Aerial Vehicles (UAVs) and Satellites", - "description": "Using a distributed mesh network communication architecture, this system facilitates formation flying by providing a framework for the exchange of information among multiple vehicles. 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The technology's generic design affords applicability to to an array of vehicle types, including UAVs and satellites.", "identifier": "MFS-33193-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-33193-1", + "laborHours": 0, + "name": "Formation Flying System for Unmanned Aerial Vehicles (UAVs) and Satellites", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-10-14" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-33193-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Release Only", + "Vehicle Management (Space/Air/Ground)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63b7" }, - "name": "Propulsion System Controller Checkout (PCOC) Software", - "description": "The Propulsion System Controller Checkout (PCOC) Computer served as the electrical ground support equipment for FASTRAC engine avionics. 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", "identifier": "MFS-33038-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-33038-1", + "laborHours": 0, + "name": "NASA Marshall Engineering Thermosphere (MET) Model 2007", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-33038-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Release Only", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63c7" }, - "name": "WinPlot Graphical Display System", - "description": "WinPlot is a powerful desktop graphical analysis tool that allows the user to generate displays of unrestrictive amounts of data. 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", - "tags": [ - "NASA", - "MSFC", - "General Public Release", - "Business Systems and Project Management" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "MSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-3-31" + }, + "description": "The Schedule Test and Assessment Tool (STAT) 5.0 is a schedule management software add-in developed to work specifically within the Microsoft Project scheduling application. The STAT 5.0 software provides the automated capability to quickly identify, quantify, and report numerous types of critical schedule assessment data for management use. 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", "identifier": "MFS-33362-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-33362-1", + "laborHours": 0, + "name": "Schedule Test and Assessment Tool (STAT) 5.0", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-3-31" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-33362-1", + "tags": [ + "NASA", + "MSFC", + "General Public Release", + "Business Systems and Project Management" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63ca" }, - "name": "Marshall MRMS Mosaic Python Toolkit (MMM-Py)", - "description": "MMM-Py reads, analyzes, and displays three-dimensional national mosaicked reflectivity data produced by NOAA's National Severe Storms Laboratory (NSSL). 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Lang et al. (2009; J. Atmos. Oceanic Technol.). This information can be used to correct the radar data when the radar beams intersect objects like trees, buildings, and mountains.", + "repositoryURL": "https://github.com/nasa/DualPol", "tags": [ "NASA", "MSFC", "Open Source", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63ce" + }, "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "MSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-7-12" + }, + "description": "This Python package will calculate beam blockage in polarimetric weather radar data using the specific differential phase (KDP) and fully self-consistent (FSC) methods of Timothy J. Lang et al. (2009; J. Atmos. Oceanic Technol.). 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CORGRD is the grid generator written to accompany the CORSAIR analysis. The grid generator produces overlaid O-H grids for rotating turbomachinery components, including those with tip clearance and varying endwall radii. WILDCAT is the two-dimensional counterpart of CORSAIR.", + "repositoryURL": "https://software.nasa.gov/software/MFS-23348-1", "tags": [ "NASA", "MSFC", "U.S. Government Purpose Release", "Propulsion" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63d1" + }, "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Marshall Aerospace Vehicle Representation in C (MAVERIC-II) is a generic low-to-high-fidelity six-degree-of-freedom vehicle flight simulation program.", + "identifier": "MFS-31989-1", + "laborHours": 0, + "name": "Marshall Aerospace Vehicle Representation in C (MAVERIC-II)", "organization": "MSFC", - "identifier": "MFS-31622-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31622-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb63d1" + "usageType": "governmentWideReuse" }, - "name": "Marshall Aerospace Vehicle Representation in C (MAVERIC-II)", - "description": "Marshall Aerospace Vehicle Representation in C (MAVERIC-II) is a generic low-to-high-fidelity six-degree-of-freedom vehicle flight simulation program.", + "repositoryURL": "https://software.nasa.gov/software/MFS-31989-1", "tags": [ "NASA", "MSFC", "U.S. Government Purpose Release", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63d0" + }, "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "CORSAIR is a three-dimensional unsteady Navier-Stokes analysis used for solving flows in rotating turbomachinery components. 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The computation for each spectral band begins with conversion of plume properties to optical properties for that band; rays from the receiver surface are generated in random directions to intersect the plume.", + "identifier": "MFS-32290-1", + "laborHours": 0, + "name": "RMC Code", "organization": "MSFC", - "identifier": "MFS-26283-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-26283-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-32290-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Release Only", + "Propulsion" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63e9" }, - "name": "Lightning Forecasting Algorithm (LFA)", - "description": "The Lightning Forecasting Algorithm (LFA) is an algorithm that may be implemented within any cloud-allowing or cloud-resolving numerical forecast model that converts gridded forecasts of updraft speeds and graupel hydrometeor mixing ratios in the mixed phase layer into gridded estimates of total lightning flash rate density.\r\n", - "tags": [ - "NASA", - "MSFC", - "General Public Release", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "MSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2015-5-28" + }, + "description": "The Lightning Forecasting Algorithm (LFA) is an algorithm that may be implemented within any cloud-allowing or cloud-resolving numerical forecast model that converts gridded forecasts of updraft speeds and graupel hydrometeor mixing ratios in the mixed phase layer into gridded estimates of total lightning flash rate density.\r\n", "identifier": "MFS-33225-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-33225-1", + "laborHours": 0, + "name": "Lightning Forecasting Algorithm (LFA)", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2015-5-28" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-33225-1", + "tags": [ + "NASA", + "MSFC", + "General Public Release", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb63ea" + "$oid": "5a3a9b78da833f1e40fb63e8" }, - "name": "Automated Animation Creation Tool (ANIMATOR)", - "description": "The Automated Animation Creation Tool (ANIMATOR) is a software program developed as a two- and three-dimensional tool for creating Motion Picture Experts Group (MPEG) animation files.", - "tags": [ - "NASA", - "MSFC", - "U.S. Government Purpose Release", - "Business Systems and Project Management" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "A two-phase Navier Stokes code has been developed to improve plume and plume impingement methodology. 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Translational accelerations and interface loads, if the launch vehicle has booseters or wings, are also computed.", "identifier": "MFS-27332-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-27332-1", + "laborHours": 0, + "name": "VLOADS V1.4 Launch Vehicle Loads Analysis For Preliminary Design", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-8-10" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb63ed" + "usageType": "governmentWideReuse" }, - "name": "Monocoque Tank Analysis Spreadsheet System (MonTASS), Version 2.0", - "description": "The Monocoque Tank Analysis Spreadsheet System (MonTASS) computer program enables rapid analysis and preliminary design of structural domes and truncated sections of cones. MonTASS performs both design and analysis functions and can be used to analyze nonpressurized conical structures.", + "repositoryURL": "https://software.nasa.gov/software/MFS-27332-1", "tags": [ "NASA", "MSFC", "U.S. Release Only", "Structures and Mechanisms" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63ed" + }, "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "MSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Monocoque Tank Analysis Spreadsheet System (MonTASS) computer program enables rapid analysis and preliminary design of structural domes and truncated sections of cones. MonTASS performs both design and analysis functions and can be used to analyze nonpressurized conical structures.", "identifier": "MFS-31223-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31223-1", + "laborHours": 0, + "name": "Monocoque Tank Analysis Spreadsheet System (MonTASS), Version 2.0", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-31223-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Release Only", + "Structures and Mechanisms" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63ee" }, - "name": "High-Speed Data Viewer", - "description": "The High-Speed Data Viewer computer software was developed for viewing high-frequency data recorded in the East and West Test Areas at Marshall Space Flight Center (MSFC).", - "tags": [ - "NASA", - "MSFC", - "U.S. Release Only", - "System Testing" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "MSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The High-Speed Data Viewer computer software was developed for viewing high-frequency data recorded in the East and West Test Areas at Marshall Space Flight Center (MSFC).", "identifier": "MFS-31700-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31700-1", + "laborHours": 0, + "name": "High-Speed Data Viewer", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb63ef" + "usageType": "governmentWideReuse" }, - "name": "ROCet Engine Transient Simulation Software (ROCETS)", - "description": "The Rocket Engine Transient Simulation (ROCETS) software consists of a library of rocket engine component software modules for combustion chambers, nozzles, turbines, pumps, valves, lines, etc. The tool can be used to analyze both steady-state and transient performance under various operating conditions in a variety of environments.", + "repositoryURL": "https://software.nasa.gov/software/MFS-31700-1", "tags": [ "NASA", "MSFC", "U.S. Release Only", - "Propulsion" - ], + "System Testing" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63f0" + }, "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-11-3" + }, + "description": "The focus of Trapped Radiation Models software development effort was to help spacecraft and payload designers to account for uncertainties in predictive models of the Earth's trapped radiation environment. A tool was needed for more accurately determining radiation requirements and risks -- essential elements for producing less expensive, more reliable spacecraft.\r\n", + "identifier": "MFS-31319-1", + "laborHours": 0, + "name": "Trapped Radiation Models - Uncertainties For Spacecraft Design", "organization": "MSFC", - "identifier": "MFS-31858-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31858-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb63f0" + "usageType": "governmentWideReuse" }, - "name": "Trapped Radiation Models - Uncertainties For Spacecraft Design", - "description": "The focus of Trapped Radiation Models software development effort was to help spacecraft and payload designers to account for uncertainties in predictive models of the Earth's trapped radiation environment. A tool was needed for more accurately determining radiation requirements and risks -- essential elements for producing less expensive, more reliable spacecraft.\r\n", + "repositoryURL": "https://software.nasa.gov/software/MFS-31319-1", "tags": [ "NASA", "MSFC", "U.S. Release Only", "Environmental Science (Earth, Air, Space, Exoplanet)" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63ef" + }, "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Rocket Engine Transient Simulation (ROCETS) software consists of a library of rocket engine component software modules for combustion chambers, nozzles, turbines, pumps, valves, lines, etc. The tool can be used to analyze both steady-state and transient performance under various operating conditions in a variety of environments.", + "identifier": "MFS-31858-1", + "laborHours": 0, + "name": "ROCet Engine Transient Simulation Software (ROCETS)", "organization": "MSFC", - "identifier": "MFS-31319-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31319-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-11-3" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb63f1" - }, - "name": "Shared Memory Framework for Distributed Processing of Models and Simulation on a Linux Host with Virtual Machines", - "description": "This NASA innovation implements distributed model processes with shared memory data exchange across virtually hosted operating systems.", + "repositoryURL": "https://software.nasa.gov/software/MFS-31858-1", "tags": [ "NASA", "MSFC", "U.S. Release Only", - "Data Servers Processing and Handling" - ], + "Propulsion" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63eb" + }, "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The INTegrated ROcket Sizing Model (INTROS) is used to perform conceptual and preliminary design sizing and trade and sensitivity studies for launch vehicles. Sizing is done in terms of establishing architectural breakdown structures and related geometry and mass properties.", + "identifier": "MFS-32199-1", + "laborHours": 0, + "name": "INTegrated ROcket Sizing Model (INTROS) Analytical Tool for Design and Sizing of Launch Vehicles, Version 3.0", "organization": "MSFC", - "identifier": "MFS-32970-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-32970-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-32199-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Government Purpose Release", + "Design and Integration Tools" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63f2" }, - "name": "Bearing Analysis Tool (BAT)", - "description": "The Bearing Analysis Tool (BAT) allows detailed design of rolling element bearings rocket engine turbopumps and other applications. It includes a graphical user interface that greatly reduces the effort required to define analytical models for simulation and design.", - "tags": [ - "NASA", - "MSFC", - "U.S. Release Only", - "Design and Integration Tools" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "MSFC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Bearing Analysis Tool (BAT) allows detailed design of rolling element bearings rocket engine turbopumps and other applications. It includes a graphical user interface that greatly reduces the effort required to define analytical models for simulation and design.", "identifier": "MFS-31864-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31864-1", + "laborHours": 0, + "name": "Bearing Analysis Tool (BAT)", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-31864-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Release Only", + "Design and Integration Tools" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb63f3" + "$oid": "5a3a9b78da833f1e40fb63f1" }, - "name": "Athena Software Platform", - "description": "The Athena platform is designed to be a single-point source for acquiring, assessing, archiving, and disseminating scientific and technical information. The platform ensures successful performance, increases safety, and saves resources.", - "tags": [ - "NASA", - "MSFC", - "U.S. Government Purpose Release", - "Data Servers Processing and Handling" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This NASA innovation implements distributed model processes with shared memory data exchange across virtually hosted operating systems.", + "identifier": "MFS-32970-1", + "laborHours": 0, + "name": "Shared Memory Framework for Distributed Processing of Models and Simulation on a Linux Host with Virtual Machines", "organization": "MSFC", - "identifier": "MFS-33036-1", - "repositoryURL": "https://software.nasa.gov/software/NPO-47857-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-32970-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Release Only", + "Data Servers Processing and Handling" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb63f4" + "$oid": "5a3a9b78da833f1e40fb63f3" }, - "name": "Launch Vehicle Analysis (LVA) Tool", - "description": "The Launch Vehicle Analysis (LVA) Tool is a software program that integrates ground and flightload analysis with direct-solution structural and thermal analysis. A typical solution can be obtained, starting from scratch, in thirty to sixty minutes, and subsequent runs can be done in less than two minutes.", - "tags": [ - "NASA", - "MSFC", - "U.S. Government Purpose Release", - "Structures and Mechanisms" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Athena platform is designed to be a single-point source for acquiring, assessing, archiving, and disseminating scientific and technical information. The platform ensures successful performance, increases safety, and saves resources.", + "identifier": "MFS-33036-1", + "laborHours": 0, + "name": "Athena Software Platform", "organization": "MSFC", - "identifier": "MFS-31694-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-31694-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/NPO-47857-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Government Purpose Release", + "Data Servers Processing and Handling" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb63f5" + "$oid": "5a3a9b78da833f1e40fb63f4" }, - "name": "Project Cost Estimating Capability Version 2", - "description": "Used to develop cost estimates/models for space systems, this technology combines an Excel add-in with a simple, robust, and transparent collection of NASA cost-estimating relationships (CERs), statistics, work breakdown structures, and cost-estimating algorithms. The approach's use of native Excel functionality to provide basic calculations limits the overhead required to maintain a model and affords more visibility to the user with regard to the calculations and equations involved in generating an estimate.", - "tags": [ - "NASA", - "MSFC", - "General Public Release", - "Business Systems and Project Management" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "The Launch Vehicle Analysis (LVA) Tool is a software program that integrates ground and flightload analysis with direct-solution structural and thermal analysis. A typical solution can be obtained, starting from scratch, in thirty to sixty minutes, and subsequent runs can be done in less than two minutes.", + "identifier": "MFS-31694-1", + "laborHours": 0, + "name": "Launch Vehicle Analysis (LVA) Tool", "organization": "MSFC", - "identifier": "MFS-33187-2", - "repositoryURL": "https://software.nasa.gov/software/MFS-33187-2", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2016-1-21" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-31694-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Government Purpose Release", + "Structures and Mechanisms" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb63f6" + "$oid": "5a3a9b78da833f1e40fb63f5" }, - "name": "Earth Global Reference Atmospheric Model (Earth-GRAM) 2010", - "description": "Earth-Gram 2010 is an open-source Fortran computer code that can run on a variety of platforms including PCs and UNIX stations. The model provides values for atmospheric parameters such as density, temperature, winds, and constituents for any month and at any altitude and location within the Earth's atmosphere. Versions from 1999 and 2007 are also available.", - "tags": [ - "NASA", - "MSFC", - "U.S. Release Only", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2016-1-21" + }, + "description": "Used to develop cost estimates/models for space systems, this technology combines an Excel add-in with a simple, robust, and transparent collection of NASA cost-estimating relationships (CERs), statistics, work breakdown structures, and cost-estimating algorithms. The approach's use of native Excel functionality to provide basic calculations limits the overhead required to maintain a model and affords more visibility to the user with regard to the calculations and equations involved in generating an estimate.", + "identifier": "MFS-33187-2", + "laborHours": 0, + "name": "Project Cost Estimating Capability Version 2", "organization": "MSFC", - "identifier": "MFS-32780-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-32780-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-33187-2", + "tags": [ + "NASA", + "MSFC", + "General Public Release", + "Business Systems and Project Management" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb63f7" + "$oid": "5a3a9b78da833f1e40fb63f6" }, - "name": "NASA/Air Force Spacecraft Charging Analyzer Program (NASCAP-2K), Version 4.2", - "description": "NASCAP-2K is the next-generation spacecraft charging analysis code. The technology is a comprehensive update to the original NASCAP spacecraft charging codes written twenty years ago. A collaboration of NASA and the U.S. Air Force Research Lab (AFRL), the software builds upon the Air Force's DynaPAC charging algorithms and will replace 3D spacecraft charging codes for all environments.", - "tags": [ - "NASA", - "MSFC", - "U.S. Release Only", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "msfc-sra-team@mail.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "Earth-Gram 2010 is an open-source Fortran computer code that can run on a variety of platforms including PCs and UNIX stations. The model provides values for atmospheric parameters such as density, temperature, winds, and constituents for any month and at any altitude and location within the Earth's atmosphere. Versions from 1999 and 2007 are also available.", + "identifier": "MFS-32780-1", + "laborHours": 0, + "name": "Earth Global Reference Atmospheric Model (Earth-GRAM) 2010", "organization": "MSFC", - "identifier": "MFS-32056-1", - "repositoryURL": "https://software.nasa.gov/software/MFS-32056-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-32780-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Release Only", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63f8" }, - "name": "Stennis Space Center (SSC) Site Status Mobile Application", - "description": "This application provides SSC civil servants, contractors, and tenants the ability to view the Center's weather radar and current site status bulletin from a mobile device. The application also alerts users via push notification when a new site status is posted. Available at the Apple App Store.", - "tags": [ - "NASA", - "SSC", - "General Public Release", - "Business Systems and Project Management" - ], "contact": { "email": "ssc-technology@nasa.gov" }, - "organization": "SSC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This application provides SSC civil servants, contractors, and tenants the ability to view the Center's weather radar and current site status bulletin from a mobile device. The application also alerts users via push notification when a new site status is posted. Available at the Apple App Store.", "identifier": "SSC-00424", - "repositoryURL": "https://software.nasa.gov/software/SSC-00424", + "laborHours": 0, + "name": "Stennis Space Center (SSC) Site Status Mobile Application", + "organization": "SSC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb63f9" + "usageType": "governmentWideReuse" }, - "name": "Engineering Units Generator (EUGEN)", - "description": "EUGEN converts digitized sensor output voltage data to engineering units. The tool creates individual processed data files (one file per transducer per test run), converting raw voltage to meaningful measurements such as pressure or temperature. \r\nEngineering Units are generated by the Low Speed Data Processing System (LSDPS) in addition to performing calculated values or parameters at different levels in order to provide the customer with the final data product. LSDPS utilizes the NIST REFPROPS program to calculate thermo-physical properties over a wide range of temperatures and pressures. Use of these programs requires proficiency in Linux, C and PV-Wave (separate license required) programming languages and bash scripts. A GCC compiler is invoked with the make file in each C code program directory. Winplot is the general-purpose plotting utility.\r\nA Developers Guide provides specifics on the hardware and software requirements needed to execute the tool.\r\n", + "repositoryURL": "https://software.nasa.gov/software/SSC-00424", "tags": [ "NASA", "SSC", "General Public Release", - "Data Servers Processing and Handling" - ], + "Business Systems and Project Management" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63f7" + }, "contact": { - "email": "ssc-technology@nasa.gov" + "email": "msfc-sra-team@mail.nasa.gov" }, - "organization": "SSC", - "identifier": "SSC-00151-1", - "repositoryURL": "https://software.nasa.gov/software/SSC-00151-1", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "NASCAP-2K is the next-generation spacecraft charging analysis code. The technology is a comprehensive update to the original NASCAP spacecraft charging codes written twenty years ago. A collaboration of NASA and the U.S. Air Force Research Lab (AFRL), the software builds upon the Air Force's DynaPAC charging algorithms and will replace 3D spacecraft charging codes for all environments.", + "identifier": "MFS-32056-1", + "laborHours": 0, + "name": "NASA/Air Force Spacecraft Charging Analyzer Program (NASCAP-2K), Version 4.2", + "organization": "MSFC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/MFS-32056-1", + "tags": [ + "NASA", + "MSFC", + "U.S. Release Only", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb63fa" + "$oid": "5a3a9b78da833f1e40fb63f9" }, - "name": "Generalized Computer-Based Computation Of Venturi and Orifice Pressure Drops", - "description": "This is a set of computer program routines developed using Intel Visual Fortran Compiler software that calculates fluid system venturi and orifice inlet-to-throat pressure drops and inlet-to-exit pressure drops using highly accurate fluid properties through their interaction with a library workspace created from source code Fortran programs of the REFPROP database, which is produced by NIST. Can determine types of flow: compressible, cavitating chocked, etc., through the devices and adjusts computations accordingly as the program is running. ", - "tags": [ - "NASA", - "SSC", - "General Public Release", - "Design and Integration Tools" - ], "contact": { "email": "ssc-technology@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "EUGEN converts digitized sensor output voltage data to engineering units. The tool creates individual processed data files (one file per transducer per test run), converting raw voltage to meaningful measurements such as pressure or temperature. \r\nEngineering Units are generated by the Low Speed Data Processing System (LSDPS) in addition to performing calculated values or parameters at different levels in order to provide the customer with the final data product. LSDPS utilizes the NIST REFPROPS program to calculate thermo-physical properties over a wide range of temperatures and pressures. Use of these programs requires proficiency in Linux, C and PV-Wave (separate license required) programming languages and bash scripts. A GCC compiler is invoked with the make file in each C code program directory. Winplot is the general-purpose plotting utility.\r\nA Developers Guide provides specifics on the hardware and software requirements needed to execute the tool.\r\n", + "identifier": "SSC-00151-1", + "laborHours": 0, + "name": "Engineering Units Generator (EUGEN)", "organization": "SSC", - "identifier": "SSC-00161-1", - "repositoryURL": "https://software.nasa.gov/software/SSC-00161-1", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb63fb" - }, - "name": "Application Research Toolbox (ART)", - "description": "The Application Research Toolbox (ART) is a collection of computer programs that implement algorithms and parametric mathematical models for simulating remote sensing systems, developed in MATLAB. 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A Programmers Reference is included to provide additional detail on setting up the operational environment.", + "repositoryURL": "https://software.nasa.gov/software/SSC-00151-1", "tags": [ "NASA", "SSC", "General Public Release", "Data Servers Processing and Handling" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb63fa" + }, "contact": { "email": "ssc-technology@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "This is a set of computer program routines developed using Intel Visual Fortran Compiler software that calculates fluid system venturi and orifice inlet-to-throat pressure drops and inlet-to-exit pressure drops using highly accurate fluid properties through their interaction with a library workspace created from source code Fortran programs of the REFPROP database, which is produced by NIST. Can determine types of flow: compressible, cavitating chocked, etc., through the devices and adjusts computations accordingly as the program is running. 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A Programmers Reference is included to provide additional detail on setting up the operational environment.", + "identifier": "SSC-00181", + "laborHours": 0, + "name": "Application Research Toolbox (ART)", "organization": "SSC", - "identifier": "SSC-00339", - "repositoryURL": "https://software.nasa.gov/software/SSC-00339", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://software.nasa.gov/faq", "name": "Pending Release" } ], - "usageType": "governmentWideReuse", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2014-4-15" - } + "repositoryURL": "https://software.nasa.gov/software/SSC-00181", + "tags": [ + "NASA", + "SSC", + "General Public Release", + "Data Servers Processing and Handling" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb63ff" }, - "name": "39A", - "description": "39A is the software used to power the 2013 International Space Apps Challenge, a global hackathon focusing on space technology and issues.", - "tags": [ - "NASA", - "Hackathon" - ], "contact": { "email": "jason.duley@nasa.gov" }, - "organization": "CIO", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "39A is the software used to power the 2013 International Space Apps Challenge, a global hackathon focusing on space technology and issues.", "identifier": "NASA-39A", - "repositoryURL": "https://github.com/nasa/39A", + "laborHours": 0, + "name": "39A", + "organization": "CIO", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/39A/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/nasa/39A", + "tags": [ + "NASA", + "Hackathon" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6400" + "$oid": "5a3a9b78da833f1e40fb63fe" }, - "name": "Advanced Diagnostics and Prognostics Testbed (ADAPT)", - "description": "The IVHM Project in the Aviation Safety Program has funded research in electrical power system (EPS) health management. This problem domain contains both discrete and continuous behavior, and thus is directly relevant for the hybrid diagnostic tool HyDE. In FY2007 work was performed to expand the HyDE diagnosis model of the ADAPT system. The work completed resulted in a HyDE model with the capability to diagnose five times the number of ADAPT components than was previously tested. The expanded diagnosis model passed a corresponding set of new ADAPT fault injection scenario tests with no incorrect faults reported. The time required for the HyDE diagnostic system to isolate the fault varied widely between tests; this variance was reduced by tuning of the HyDE input parameters. These results and other diagnostic design tradeoffs are discussed. Finally, possible future improvements for both the HyDE diagnostic model and HyDE itself are presented.", - "tags": [ - "NASA", - "electrical power system", - "IVHM", - "testbed", - "ADAPT", - "diagnostics", - "prognostics" - ], "contact": { - "email": "jason.duley@nasa.gov" + "email": "ssc-technology@nasa.gov" }, - "organization": "ARC", - "identifier": "NASA-Advanced_Diagnostics_Prognostics_Testbed_(ADAPT)", - "repositoryURL": "https://dashlink.arc.nasa.gov/static/dashlink/media/dataset/Exp_BN.tar.gz", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2014-4-15" + }, + "description": "An automated Spatial Resolution Verification Tool (SRVT) was developed to rapidly determine the spatial resolution characteristics of remotely sensed aerial and satellite imagery. Most current methods for assessing spatial resolution characteristics of imagery rely on pre-deployed engineered targets and are performed only at selected times within pre-selected scenes. 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The automated algorithm is capable of quickly verifying the spatial resolution quality of all images within a data set, enabling the appropriate use of those images in a number of applications.\r\nThe SRVT has been validated against traditional techniques using IKONOS and QuickBird satellite imagery.", + "identifier": "SSC-00339", + "laborHours": 0, + "name": "Spatial Resolution Verification Tool (SRVT)", + "organization": "SSC", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://opensource.org/licenses/NASA-1.3", - "name": "NASA v3" + "URL": "https://software.nasa.gov/faq", + "name": "Pending Release" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "governmentWideReuse" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://software.nasa.gov/software/SSC-00339", + "tags": [ + "NASA", + "SSC", + "U.S. Government Purpose Release", + "Data and Image Processing" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6401" }, - "name": "Adverse Condition & Critical Event Prediction Toolbox (ACCEPT)", + "contact": { + "email": "rodney.martin@nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, "description": "ACCEPT is an open source machine learning code for model development to support both regression and detection modules, including fidelity analysis.", + "identifier": "NASA-ACCEPT", + "laborHours": 0, + "name": "Adverse Condition & Critical Event Prediction Toolbox (ACCEPT)", + "organization": "ARC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://opensource.org/licenses/NASA-1.3", + "name": "NASA v3" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://c3.nasa.gov/dashlink/static/media/algorithm/ACCEPT_osrelease_1.6.tar.gz", "tags": [ "NASA", "machine learning", "model development", "regression", "detection" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6400" + }, "contact": { - "email": "rodney.martin@nasa.gov" + "email": "jason.duley@nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" }, + "description": "The IVHM Project in the Aviation Safety Program has funded research in electrical power system (EPS) health management. 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Finally, possible future improvements for both the HyDE diagnostic model and HyDE itself are presented.", + "identifier": "NASA-Advanced_Diagnostics_Prognostics_Testbed_(ADAPT)", + "laborHours": 0, + "name": "Advanced Diagnostics and Prognostics Testbed (ADAPT)", "organization": "ARC", - "identifier": "NASA-ACCEPT", - "repositoryURL": "https://c3.nasa.gov/dashlink/static/media/algorithm/ACCEPT_osrelease_1.6.tar.gz", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://opensource.org/licenses/NASA-1.3", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://dashlink.arc.nasa.gov/static/dashlink/media/dataset/Exp_BN.tar.gz", + "tags": [ + "NASA", + "electrical power system", + "IVHM", + "testbed", + "ADAPT", + "diagnostics", + "prognostics" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6402" }, - "name": "Apache OODT", + "contact": { + "email": "chris.a.mattmann@jpl.nasa.gov" + }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, "description": "Apache OODT is NASA's first project to be stewarded at the open source Apache Software Foundation. OODT is middleware for information integration and for science data processing and retrieval. It provides components including file management, workflow management, resource management, and automated remote data acquisition, file crawling and ingestion, and science algorithm wrapping and integration.", + "identifier": "NASA-Apache-OODT", + "laborHours": 0, + "name": "Apache OODT", + "organization": "JPL", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "http://www.apache.org/licenses/LICENSE-2.0.html", + "name": "NASA v3" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "http://oodt.apache.org/", "tags": [ "NASA", "file", @@ -32054,146 +32076,146 @@ "algorithm", "wrapping", "integration" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6405" + }, "contact": { - "email": "chris.a.mattmann@jpl.nasa.gov" + "email": "patrick.hogan@nasa.gov" }, - "organization": "JPL", - "identifier": "NASA-Apache-OODT", - "repositoryURL": "http://oodt.apache.org/", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "NASA World Wind in Java for HTML5", + "identifier": "ARC-WebWorldWind", + "laborHours": 0, + "name": "WebWorldWind", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "http://www.apache.org/licenses/LICENSE-2.0.html", + "URL": "https://github.com/nasa/World-Wind-Java/blob/master/WorldWind/NASA_Open_Source_Agreement_1.3.txt", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/NASAWorldWind/WebWorldWind", + "tags": [ + "NASA", + "WorldWind", + "visual simulation", + "satellite", + "orbital dynamics", + "web application" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6403" }, - "name": "Podaacpy", - "description": "Podaacpy is a python utility library for interacting with NASA JPL’s PO.DAAC.", - "tags": [ - "NASA", - "Framework", - "Toolkit", - "Web", - "Python", - "Subsetting", - "Dataset Search" - ], "contact": { "email": "lewis.j.mcgibbney@nasa.gov" }, - "organization": "JPL", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "Podaacpy is a python utility library for interacting with NASA JPL’s PO.DAAC.", "identifier": "NASA-Podaacpy", - "repositoryURL": "https://github.com/nasa/podaacpy", + "laborHours": 0, + "name": "Podaacpy", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "http://www.apache.org/licenses/LICENSE-2.0.html", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/nasa/podaacpy", + "tags": [ + "NASA", + "Framework", + "Toolkit", + "Web", + "Python", + "Subsetting", + "Dataset Search" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6404" }, - "name": "Java World Wind", - "description": "NASA World Wind is an intuitive software application supporting the interactive exploration of a variety of data presented within a geospatial context. The technology offers a 3D graphics user experience with seamless, integrated access to a variety of online data sources via open-standards protocols. ", - "tags": [ - "NASA", - "ARC", - "Open Source", - "Environmental Science (Earth, Air, Space, Exoplanet)" - ], "contact": { "email": "arc-sra-team@mail.nasa.gov" }, - "organization": "ARC", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "NASA World Wind is an intuitive software application supporting the interactive exploration of a variety of data presented within a geospatial context. The technology offers a 3D graphics user experience with seamless, integrated access to a variety of online data sources via open-standards protocols. ", "identifier": "ARC-15166-1A", - "repositoryURL": "https://github.com/nasa/World-Wind-Java", + "laborHours": 0, + "name": "Java World Wind", + "organization": "ARC", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/World-Wind-Java/blob/master/WorldWind/NASA_Open_Source_Agreement_1.3.txt", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/nasa/World-Wind-Java", + "tags": [ + "NASA", + "ARC", + "Open Source", + "Environmental Science (Earth, Air, Space, Exoplanet)" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb6405" + "$oid": "5a3a9b78da833f1e40fb6406" }, - "name": "WebWorldWind", - "description": "NASA World Wind in Java for HTML5", - "tags": [ - "NASA", - "WorldWind", - "visual simulation", - "satellite", - "orbital dynamics", - "web application" - ], "contact": { "email": "patrick.hogan@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "NASA World Wind organization website", + "identifier": "ARC-NASAWorldWind.github.io", + "laborHours": 0, + "name": "NASAWorldWind.github.io", "organization": "ARC", - "identifier": "ARC-WebWorldWind", - "repositoryURL": "https://github.com/NASAWorldWind/WebWorldWind", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/World-Wind-Java/blob/master/WorldWind/NASA_Open_Source_Agreement_1.3.txt", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6406" + "usageType": "openSource" }, - "name": "NASAWorldWind.github.io", - "description": "NASA World Wind organization website", + "repositoryURL": "https://github.com/NASAWorldWind/NASAWorldWind.github.io", "tags": [ "NASA", "WorldWind", @@ -32201,36 +32223,36 @@ "satellite", "orbital dynamics", "github" - 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], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6408" + }, "contact": { "email": "patrick.hogan@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "The NASA WorldWind Server Kit (WWSK) is an open source Java project that assembles GeoServer for easy distribution and implementation.", + "identifier": "ARC-WorldWindServerKit", + "laborHours": 0, + "name": "WorldWindServerKit", "organization": "ARC", - "identifier": "ARC-WorldWindAndroid", - "repositoryURL": "https://github.com/NASAWorldWind/WorldWindAndroid", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/World-Wind-Java/blob/master/WorldWind/NASA_Open_Source_Agreement_1.3.txt", + "URL": "https://www.gnu.org/licenses/gpl-2.0.html", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - 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], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb640a" + }, "contact": { "email": "patrick.hogan@nasa.gov" }, - "organization": "ARC", - "identifier": "ARC-WorldWindJava", - "repositoryURL": "https://github.com/NASAWorldWind/WorldWindJava", - "permissions": { - "licenses": [ - { - "URL": "https://github.com/NASAWorldWind/WorldWindJava/blob/develop/LICENSE.txt", - "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2017-08-17" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb640a" }, - "name": "NASA WorldWind Research: SpaceBirds", "description": "SpaceBirds, a new innovative application intended as both a visual and educational application as well as a powerful tracking tool, can be used by professionals, students, and enthusiasts alike. 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Earthquake Signal Precursors, ESP, detection and forecast. This project aims to apply Dr. Friedemann Freund’s theory of earthquake precursor science. Dr. Freund's theory states that as stresses in the Earth’s crust increase during the time leading up to a major earthquake, atomic-scale defects in the mineral grains and along the boundaries between mineral grains become activated. The ultimate goal of this project is to observe live anomalous EM field fluctuations and accurately forecast an earthquake within a specified geographical range.", + "repositoryURL": "https://github.com/NASAWorldWindResearch/EarthquakeApp", "tags": [ "NASA", "worldwind", @@ -32466,36 +32488,36 @@ "Javascript", "geo-browser", "geo" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb640e" + }, "contact": { "email": "patrick.hogan@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-17" + }, + "description": "An educational web application that visualizes the effects of climate change on agriculture using a large collection of global agriculture and weather station data.", + "identifier": "ARC-AgroSphere", + "laborHours": 0, + "name": "NASA WorldWind Research: AgroSphere", "organization": "ARC", - "identifier": "ARC-EarthquakeApp", - "repositoryURL": "https://github.com/NASAWorldWindResearch/EarthquakeApp", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://software.nasa.gov/faq", - "name": "Pending Release" + "URL": "https://github.com/NASAWorldWindResearch/AgroSphere/blob/master/LICENSE", + "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-17" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb640e" + "usageType": "openSource" }, - "name": "NASA WorldWind Research: AgroSphere", - "description": "An educational web application that visualizes the effects of climate change on agriculture using a large collection of global agriculture and weather station data.", + "repositoryURL": "https://github.com/NASAWorldWindResearch/AgroSphere", "tags": [ "NASA", "worldwind", @@ -32505,329 +32527,327 @@ "globe", "atmosphere", "weather-data" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb640f" + }, "contact": { "email": "patrick.hogan@nasa.gov" }, - "organization": "ARC", - "identifier": "ARC-AgroSphere", - "repositoryURL": "https://github.com/NASAWorldWindResearch/AgroSphere", - "permissions": { - "licenses": [ - { - "URL": "https://github.com/NASAWorldWindResearch/AgroSphere/blob/master/LICENSE", - "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2017-08-17" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb640f" }, - "name": "NASA WorldWind Research: WorldWeather", "description": "The largest three-dimensional web-based interactive browser of satellite, weather, climate, and other time-aware geospatial data on the web, built upon NASA's revolutionary WorldWind technology. 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The Robovetter dispositions Kepler Threshold Crossing Events (TCEs) into Planet Candidates (PCs) and False Positives (FPs) using sophisticated vetting metrics and decision-tree logic.", + "laborHours": 0, + "name": "Kepler DR25 Robovetter", "organization": "ARC", - "repositoryURL": "https://github.com/nasa/kepler-robovetter", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/kepler-robovetter/tree/master/NASA_Open_Source_Documents", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/nasa/kepler-robovetter", + "tags": [ + "NASA", + "Kepler", + "DR25", + "Transits" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6426" }, - "name": "Worldview Options Eosdis", - "description": "This repository contains the configuration used by Worldview on the Earthdata site. See the Worldview repository for more information. This code was originally developed at NASA/Goddard Space Flight Center for the Earth Science Data and Information System (ESDIS) project.", - "tags": [ - "NASA", - "worldview", - "earth data science", - "eosdis", - "Tiled WMS", - "global imagery browse services", - "gibs", - "branding", - "onearth" - ], "contact": { "email": "support@earthdata.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "This repository contains the configuration used by Worldview on the Earthdata site. See the Worldview repository for more information. This code was originally developed at NASA/Goddard Space Flight Center for the Earth Science Data and Information System (ESDIS) project.", + "laborHours": 0, + "name": "Worldview Options Eosdis", "organization": "GSFC", - "repositoryURL": "https://github.com/nasa-gibs/worldview-options-eosdis", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa-gibs/worldview-options-eosdis/blob/master/LICENSE.md", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6427" + "usageType": "openSource" }, - "name": "Worldview Design", - "description": "This repository contains the wireframes and designs for NASA Worldview. This code was originally developed at NASA/Goddard Space Flight Center for the Earth Science Data and Information System (ESDIS) project.", + "repositoryURL": "https://github.com/nasa-gibs/worldview-options-eosdis", "tags": [ "NASA", "worldview", @@ -33390,37 +33372,37 @@ "Tiled WMS", "global imagery browse services", "gibs", - "design", + "branding", "onearth" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6427" + }, "contact": { "email": "support@earthdata.nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "This repository contains the wireframes and designs for NASA Worldview. 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Bindings are available for both Python and Lua.", - "tags": [ - "NASA", - "Framework", - "Radiative Transfer", - "Forward Model", - "Atmosphere", - "Retrieval", - "Earth Science", - "C++", - "Python", - "Lua" - ], "contact": { - "email": "james.mcduffie@jpl.nasa.gov" - }, - "organization": "JPL", - "repositoryURL": "https://github.com/nasa/RtRetrievalFramework", - "permissions": { - "licenses": [ - { - "URL": "https://github.com/nasa/RtRetrievalFramework/blob/master/LICENSE.txt", - "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null + "email": "wahab.alshahin@nasa.gov" }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2017-08-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb642a" }, - "name": "NASA LaTeX Docs", "description": "This is a flexible LaTeX document template designed to separate content from styling and remove all of the grunt work associated with creating professional documents. Can be used for technical reports as well as public documents such as research papers and conference papers.", - "tags": [ - "NASA", - "LaTeX", - "TeX", - "Documents", - "Reports", - "Papers" - ], - "contact": { - "email": "wahab.alshahin@nasa.gov" - }, + "laborHours": 0, + "name": "NASA LaTeX Docs", "organization": "JSC", - "repositoryURL": "https://github.com/nasa/nasa-latex-docs", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/nasa-latex-docs/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/nasa/nasa-latex-docs", + "tags": [ + "NASA", + "LaTeX", + "TeX", + "Documents", + "Reports", + "Papers" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb642b" }, - "name": "Inventory System for Lab Equipment (ISLE)", - "description": "This web application allows inventories of assets to be managed. 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Assets along with their specifications are added to the system and then used by users via a check-in/check-out function. The inventory can be browsed by category or using search. Users are given various roles within the system to allow them to perform certain functions such as view-only, check-in/check-out, modify, and full-control. Inventory managers can add and track detailed information on all inventory assets including manufacturer, storage location, custom attributes, and relationships with other assets. Assets can be found by browsing by category, search, location, or current user. Assets are checked out to specified locations by users.", + "laborHours": 0, + "name": "Inventory System for Lab Equipment (ISLE)", "organization": "GRC", - "repositoryURL": "https://github.com/nasa/isle", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/isle/blob/master/LICENSE.md", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/nasa/isle", + "tags": [ + "NASA", + "Web", + "PHP", + "MySQL", + "Inventory" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb642c" }, - "name": "Kalman Filter Code Augmentation", - "description": "The Kalman Filter Code Augmentation release is a modification of Kalman Filter Toolbox, written by Kevin Murphy, 1998. 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It extends the existing open source software's capabilities and functionality by bookkeeping more detailed information on internal data structures, as well as ensuring the consistency of mathematical conventions used by subroutines that are part of a third-party tool called ASOS as part of the modification. Additional convergence criteria have also been included, as well as the possibility for establishing additional constraints and modelling paradigms.", + "laborHours": 0, + "name": "Kalman Filter Code Augmentation", "organization": "ARC", - "repositoryURL": "http://ti.arc.nasa.gov/m/opensource/downloads/KalmanFilterAugmentation.zip", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://ti.arc.nasa.gov/m/opensource/downloads/KalmanFilterCodeAugmentationLicense.pdf", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" + }, + "repositoryURL": "http://ti.arc.nasa.gov/m/opensource/downloads/KalmanFilterAugmentation.zip", + "tags": [ + "NASA", + "model development", + "code augmentation" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6429" + }, + "contact": { + "email": "james.mcduffie@jpl.nasa.gov" }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2017-08-23" - } + }, + "description": "This software retrieves a set of atmospheric/surface/instrument parameters from a simultaneous fit to spectra from multiple absorption bands. The software uses an iterative, non-linear retrieval technique (optimal estimation). After the retrieval process has converged, the software performs an error analysis. The products of the software include all quantities needed to understand the information content of the measurement, its uncertainty, and its dependence on interfering atmospheric properties. Spectra from ground-based or space-based measurement with arbitrary observation geometry can be analyzed. The retrieved parameters can be chosen from a large set of atmospheric (e.g., volume mixing ratio of gases or aerosol optical depth), surface (e.g., Lambertian reflection), and instrument (e.g., spectral shift or instrument line shape parameters) parameters. The software uses an accurate, state-of-the-art, multiple-scattering radiative transfer code combined with an efficient polarization approximation to simulate measured spectra. 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Bindings are available for both Python and Lua.", + "laborHours": 0, + "name": "RT Retrieval Framework", + "organization": "JPL", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/nasa/RtRetrievalFramework/blob/master/LICENSE.txt", + "name": "NASA v3" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/nasa/RtRetrievalFramework", + "tags": [ + "NASA", + "Framework", + "Radiative Transfer", + "Forward Model", + "Atmosphere", + "Retrieval", + "Earth Science", + "C++", + "Python", + "Lua" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb642d" }, - "name": "ROC Curve Code Augmentation", - "description": "ROC (Receiver Operating Characteristic) curve Code Augmentation is a modification of ROC Curve code originally authored by G.C. Cawley that provides additional functionality. The inclusion of more detailed bookkeeping of new and existing internal data structures that provide more visibility into various performance measures is one of the new features.", - "tags": [ - "NASA", - "model development", - "code augmentation" - ], "contact": { "email": "rodney.martin@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "ROC (Receiver Operating Characteristic) curve Code Augmentation is a modification of ROC Curve code originally authored by G.C. Cawley that provides additional functionality. The inclusion of more detailed bookkeeping of new and existing internal data structures that provide more visibility into various performance measures is one of the new features.", + "laborHours": 0, + "name": "ROC Curve Code Augmentation", "organization": "ARC", - "repositoryURL": "http://ti.arc.nasa.gov/m/opensource/downloads/ROC_Curve_Code_Augmentation.zip", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "http://ti.arc.nasa.gov/opensource/projects/roc/", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "http://ti.arc.nasa.gov/m/opensource/downloads/ROC_Curve_Code_Augmentation.zip", + "tags": [ + "NASA", + "model development", + "code augmentation" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb642e" }, - "name": "GATER", - "description": "Geographic Applications for Transitioning Everglades Regions (GATER). Meant for running within the Google Earth Engine API, this JavaScript code provides an algorithm for cloud removal from Landsat scenes, and runs a classification scheme which classifies mangrove extent within Everglades National Park.", - "tags": [ - "NASA", - "Geographic Applications for Transitioning Everglades Regions", - "Google Earth API", - "JavaScript", - "algorithm", - "cloud removal", - "Landsat scenes", - "classification scheme", - "Everglades National Park" - ], "contact": { "email": "jeffry.w.ely@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "Geographic Applications for Transitioning Everglades Regions (GATER). Meant for running within the Google Earth Engine API, this JavaScript code provides an algorithm for cloud removal from Landsat scenes, and runs a classification scheme which classifies mangrove extent within Everglades National Park.", + "laborHours": 0, + "name": "GATER", "organization": "LaRC", - "repositoryURL": "https://github.com/NASA-DEVELOP/GATER", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/NASA-DEVELOP/GATER/blob/master/LICENSE.md", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb642f" + "usageType": "openSource" }, - "name": "SWIM", - "description": "This tool allows users to identify surface water from the most current imagery available, or to monitor temporal changes of surface water in their management area.", + "repositoryURL": "https://github.com/NASA-DEVELOP/GATER", "tags": [ "NASA", - "current imagery", - "temporal changes", - "surface water" - ], + "Geographic Applications for Transitioning Everglades Regions", + "Google Earth API", + "JavaScript", + "algorithm", + "cloud removal", + "Landsat scenes", + "classification scheme", + "Everglades National Park" + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb6430" + }, "contact": { "email": "jeffry.w.ely@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "Elkhorn Slough Vegetation Imagery Assessment (ESVIA). This suite of Google Earth Engine Javascript code analyzes vegetation change in a historical time-series using Landsat, as well as current-day vegetation productivity using Sentinel 2A imagery. Included in the scripts are operations such as image acquisition, image processing, and application.", + "laborHours": 0, + "name": "ESVIA", "organization": "LaRC", - "repositoryURL": "https://github.com/NASA-DEVELOP/SWIM", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/NASA-DEVELOP/SWIM/blob/master/LICENSE.md", + "URL": "https://github.com/NASA-DEVELOP/ESVIA/blob/master/LICENSE.md", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6430" + "usageType": "openSource" }, - "name": "ESVIA", - "description": "Elkhorn Slough Vegetation Imagery Assessment (ESVIA). This suite of Google Earth Engine Javascript code analyzes vegetation change in a historical time-series using Landsat, as well as current-day vegetation productivity using Sentinel 2A imagery. Included in the scripts are operations such as image acquisition, image processing, and application.", + "repositoryURL": "https://github.com/NASA-DEVELOP/ESVIA", "tags": [ "NASA", "Google Earth", @@ -33719,520 +33706,416 @@ "vegetation change", "landsat", "Sentinel 2A imagery" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb642f" + }, "contact": { "email": "jeffry.w.ely@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "This tool allows users to identify surface water from the most current imagery available, or to monitor temporal changes of surface water in their management area.", + "laborHours": 0, + "name": "SWIM", "organization": "LaRC", - "repositoryURL": "https://github.com/NASA-DEVELOP/ESVIA", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/NASA-DEVELOP/ESVIA/blob/master/LICENSE.md", + "URL": "https://github.com/NASA-DEVELOP/SWIM/blob/master/LICENSE.md", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/NASA-DEVELOP/SWIM", + "tags": [ + "NASA", + "current imagery", + "temporal changes", + "surface water" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb6431" }, - "name": "PiCo", - "description": "Pixelwise Correlation-Based Landscape Classification (PiCo). PiCo, an R script, automates and regionalizes the Climate Landscape Response (CLaRe) metrics developed by Wallace et al 2016. This script performs a pixel-wise regression analysis to produce rasters whose correlation values can be evaluated to target buffelgrass.", - "tags": [ - "NASA", - "R", - "climate", - "pixel-wise regression analysis", - "buffelgrass", - "pixel-wise", - "correlation-based", - "landscape" - ], "contact": { "email": "jeffry.w.ely@nasa.gov" }, - "organization": "LaRC", - "repositoryURL": "https://github.com/NASA-DEVELOP/PiCo", - "permissions": { - "licenses": [ - { - "URL": "https://github.com/NASA-DEVELOP/PiCo/blob/master/LICENSE.md", - "name": "NASA v3" - } - ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2017-08-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6432" - }, - "name": "POPP", - "description": "Palm Oil Plantation Predictor (POPP). This Python software automates the process of downloading, atmospherically correcting, and processing raster data in order to identify potential palm oil plantations.", - "tags": [ - "NASA", - "palm oil", - "plantation", - "python", - "atmospherically", - "raster" - ], - "contact": { - "email": "jeffry.w.ely@nasa.gov" }, + "description": "Pixelwise Correlation-Based Landscape Classification (PiCo). PiCo, an R script, automates and regionalizes the Climate Landscape Response (CLaRe) metrics developed by Wallace et al 2016. 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"laborHours": 0, "date": { "created": "", "lastModified": "", "metadataLastUpdated": "2017-08-23" - } + }, + "description": "NASA core Flight System File Manager Application", + "laborHours": 0, + "name": "FM", + "organization": "GSFC", + "permissions": { + "exemptionText": null, + "licenses": [ + { + "URL": "https://github.com/nasa/FM/blob/master/Core%20Flight%20System%20(CFS)%20NOSA.pdf", + "name": "NASA v3" + } + ], + "usageType": "openSource" + }, + "repositoryURL": "https://github.com/nasa/FM", + "tags": [ + "NASA", + "CFE", + "CFS" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb645c" }, - "name": "multipath-tcp-tools", - "description": "The network-traffic-analysis-tools directory contains a collection of applications written in C to help both analyze and visualize MPTCP packet traces.", - "tags": [ - "NASA", - "MPTCP", - "network traffic analysis" - ], "contact": { "email": "jishac@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "The network-traffic-analysis-tools directory contains a collection of applications written in C to help both analyze and visualize MPTCP packet traces.", + "laborHours": 0, + "name": "multipath-tcp-tools", "organization": "GRC", - 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"repositoryURL": "https://github.com/nasa/SingleDop", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/SingleDop/blob/master/LICENSE.md", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/nasa/SingleDop", + "tags": [ + "NASA", + "Doppler", + "toolkit" + ] }, { "_id": { "$oid": "5a3a9b78da833f1e40fb645e" }, - "name": "edsc-timeline", - "description": "A jQuery plugin implementing a timeline view of data, allowing time range selection as well as keyboard and touch interaction For a basic usage example and a testbed for changes.", - "tags": [ - "NASA", - "jquery", - "ECHO", - "search" - ], "contact": { "email": "patrick.m.quinn@nasa.gov" }, + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "A jQuery plugin implementing a timeline view of data, allowing time range selection as well as keyboard and touch interaction For a basic usage example and a testbed for changes.", + "laborHours": 0, + "name": "edsc-timeline", "organization": "GSFC", - "repositoryURL": "https://github.com/nasa/edsc-timeline", "permissions": { + "exemptionText": null, "licenses": [ { "URL": "https://github.com/nasa/edsc-timeline/blob/master/LICENSE", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/nasa/edsc-timeline", + "tags": [ + "NASA", + "jquery", + "ECHO", + "search" + ] }, { "_id": { - "$oid": "5a3a9b78da833f1e40fb645f" + "$oid": "5a3a9b78da833f1e40fb6460" }, - "name": "RtRetrievalFrameworkDoc", - "description": "This software retrieves a set of atmospheric/surface/instrument parameters from a simultaneous fit to spectra from multiple absorption bands. The software uses an iterative, non-linear retrieval technique (optimal estimation). After the retrieval process has converged, the software performs an error analysis. The products of the software include all quantities needed to understand the information content of the measurement, its uncertainty, and its dependence on interfering atmospheric properties. Spectra from ground-based or space-based measurement with arbitrary observation geometry can be analyzed. The retrieved parameters can be chosen from a large set of atmospheric (e.g., volume mixing ratio of gases or aerosol optical depth), surface (e.g., Lambertian reflection), and instrument (e.g., spectral shift or instrument line shape parameters) parameters. The software uses an accurate, state-of-the-art, multiple-scattering radiative transfer code combined with an efficient polarization approximation to simulate measured spectra. The software enables fast and highly accurate simulations of broad spectral ranges by an optional parallelization of the frequency processing in the radiative transfer model. The framework was written with flexibility in mind. New algorithms and instruments are added by creating additional classes that implement the defined interfaces. Bindings are available for both Python and Lua.", - "tags": [ - "NASA", - "Framework", - "Radiative Transfer", - "Forward Model", - "Atmosphere", - "Retrieval", - "Earth Science", - "C++", - "Python", - "Lua" - ], "contact": { - "email": "james.mcduffie@jpl.nasa.gov" + "email": "steven.p.hughes@nasa.gov" }, - "organization": "JPL", - "repositoryURL": "https://github.com/nasa/RtRetrievalFrameworkDoc", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "The General Mission Analysis Tool (GMAT) is the worlds only enterprise, multi-mission, open source software system for space mission design, optimization, and navigation. The system supports missions in flight regimes ranging from low Earth orbit to lunar, libration point, and deep space missions. GMAT is developed by a team of NASA, private industry, public, and private contributors and is used for real-world mission support, engineering studies, as a tool for education, and public engagement.\r\n\r\nGMAT contains models of real world objects such as spacecraft and thrusters, and analysis \"objects\" such as propagators, plots, and reports. These objects are used in a mission sequence in which the user employs commands supported by the system to model mission events and perform estimation.\r\n\r\nFor a complete list of new features, compatibility changes, and bug fixes, see the Release Notes. Below are just some of the new capabilities contained in this release. \r\nProduction quality orbit determination (Operational Certification expected in November, 2016)\r\nCode 500 ephemeris propagator\r\nSTK ephemeris file output\r\nWrite command to save GMAT configurations during execution\r\nInclude macro to load GMAT configurations from external sources during execution\r\nMany new built in math functions and parameters\r\n130 pages of new user documentation\r\n", + "laborHours": 0, + "name": "General Mission Analysis Tool (GMAT) v.R2017a", + "organization": "GSFC", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://github.com/nasa/RtRetrievalFramework/blob/master/LICENSE.txt", + "URL": "https://sourceforge.net/p/gmat/git/ci/GMAT-R2016a/tree/License.txt", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null - }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } - }, - { - "_id": { - "$oid": "5a3a9b78da833f1e40fb6460" + "usageType": "openSource" }, - "name": "General Mission Analysis Tool (GMAT) v.R2017a", - "description": "The General Mission Analysis Tool (GMAT) is the worlds only enterprise, multi-mission, open source software system for space mission design, optimization, and navigation. The system supports missions in flight regimes ranging from low Earth orbit to lunar, libration point, and deep space missions. GMAT is developed by a team of NASA, private industry, public, and private contributors and is used for real-world mission support, engineering studies, as a tool for education, and public engagement.\r\n\r\nGMAT contains models of real world objects such as spacecraft and thrusters, and analysis \"objects\" such as propagators, plots, and reports. These objects are used in a mission sequence in which the user employs commands supported by the system to model mission events and perform estimation.\r\n\r\nFor a complete list of new features, compatibility changes, and bug fixes, see the Release Notes. Below are just some of the new capabilities contained in this release. \r\nProduction quality orbit determination (Operational Certification expected in November, 2016)\r\nCode 500 ephemeris propagator\r\nSTK ephemeris file output\r\nWrite command to save GMAT configurations during execution\r\nInclude macro to load GMAT configurations from external sources during execution\r\nMany new built in math functions and parameters\r\n130 pages of new user documentation\r\n", + "repositoryURL": "https://sourceforge.net/projects/gmat/files/GMAT/GMAT-R2016a/", "tags": [ "NASA", "GSFC", "Open Source", "Design and Integration Tools" - ], + ] + }, + { + "_id": { + "$oid": "5a3a9b78da833f1e40fb645f" + }, "contact": { - "email": "steven.p.hughes@nasa.gov" + "email": "james.mcduffie@jpl.nasa.gov" }, - "organization": "GSFC", - "repositoryURL": "https://sourceforge.net/projects/gmat/files/GMAT/GMAT-R2016a/", + "date": { + "created": "", + "lastModified": "", + "metadataLastUpdated": "2017-08-23" + }, + "description": "This software retrieves a set of atmospheric/surface/instrument parameters from a simultaneous fit to spectra from multiple absorption bands. The software uses an iterative, non-linear retrieval technique (optimal estimation). After the retrieval process has converged, the software performs an error analysis. The products of the software include all quantities needed to understand the information content of the measurement, its uncertainty, and its dependence on interfering atmospheric properties. Spectra from ground-based or space-based measurement with arbitrary observation geometry can be analyzed. The retrieved parameters can be chosen from a large set of atmospheric (e.g., volume mixing ratio of gases or aerosol optical depth), surface (e.g., Lambertian reflection), and instrument (e.g., spectral shift or instrument line shape parameters) parameters. The software uses an accurate, state-of-the-art, multiple-scattering radiative transfer code combined with an efficient polarization approximation to simulate measured spectra. The software enables fast and highly accurate simulations of broad spectral ranges by an optional parallelization of the frequency processing in the radiative transfer model. The framework was written with flexibility in mind. New algorithms and instruments are added by creating additional classes that implement the defined interfaces. Bindings are available for both Python and Lua.", + "laborHours": 0, + "name": "RtRetrievalFrameworkDoc", + "organization": "JPL", "permissions": { + "exemptionText": null, "licenses": [ { - "URL": "https://sourceforge.net/p/gmat/git/ci/GMAT-R2016a/tree/License.txt", + "URL": "https://github.com/nasa/RtRetrievalFramework/blob/master/LICENSE.txt", "name": "NASA v3" } ], - "usageType": "openSource", - "exemptionText": null + "usageType": "openSource" }, - "laborHours": 0, - "date": { - "created": "", - "lastModified": "", - "metadataLastUpdated": "2017-08-23" - } + "repositoryURL": "https://github.com/nasa/RtRetrievalFrameworkDoc", + "tags": [ + "NASA", + "Framework", + "Radiative Transfer", + "Forward Model", + "Atmosphere", + "Retrieval", + "Earth Science", + "C++", + "Python", + "Lua" + ] } ] } diff --git a/data/fetched/SSA.json b/data/fetched/SSA.json index 391cc0bf..5acf2a16 100644 --- a/data/fetched/SSA.json +++ b/data/fetched/SSA.json @@ -2437,6 +2437,78 @@ "email": "Open.Source@ssa.gov", "name": "Open Source Administrator" } + }, + { + "name": "DCE-Document Conversion Engine", + "repositoryURL": "", + "description": "DCE UI is a modern web architecture using .NET WebApi2 and React Application acting as an independent front end. DCE UI is a single page web app using ReactJS, React-Router for URL routing, React-Form API for the conversion forms, Fetch API to make calls to the DCE-WebAPI, and Gulp to automate deployments to our DEV environments.", + "permissions": { + "licenses": [ + { + "URL": "www.apache.org/licenses/LICENSE-2.0", + "name": "Apache" + } + ], + "usageType": "openSource", + "exemptionText": "" + }, + "laborHours": 0, + "tags": [ + "DCE", + "Conversion", + "Document", + "Document Conversion", + "Document Conversion Engine" + ], + "contact": { + "email": "Open.Source@ssa.gov", + "name": "Open Source Administrator" + } + }, + { + "name": "data.JSON URL Checker", + "repositoryURL": "", + "description": "For federal government agencies required to deliver data.JSON file, this scripts helps agencies test URLs and make sure that they are valid that are present in their data.JSON files before publishing.", + "permissions": { + "licenses": [], + "usageType": "governmentWideReuse", + "exemptionText": "" + }, + "laborHours": 0, + "tags": [ + "JSON", + "Java Script Object Notation", + "URL", + "Uniform Resource Locator", + "JSON Validator" + ], + "contact": { + "email": "Open.Source@ssa.gov", + "name": "Open Source Administrator" + } + }, + { + "name": "YANKI", + "repositoryURL": "", + "description": "When certain attributes are used improperly, they can cause issues with screen readers. YANKI can be used to 'yank' the attributes and allow a retest of the page with the attributes removed.", + "permissions": { + "licenses": [], + "usageType": "governmentWideReuse", + "exemptionText": "" + }, + "laborHours": 0, + "tags": [ + "YANKI", + "attribute", + "WAI-ARIA", + "favelet", + "tabindex", + "javascript" + ], + "contact": { + "email": "Open.Source@ssa.gov", + "name": "Open Source Administrator" + } } ] } diff --git a/indexes/status/settings.json b/indexes/status/settings.json index 25611df0..37af98ba 100644 --- a/indexes/status/settings.json +++ b/indexes/status/settings.json @@ -1,4 +1,5 @@ { + "index.mapping.total_fields.limit": 2000, "analysis": { "filter": { "english_stop": { diff --git a/package.json b/package.json index d2628e51..3caa450f 100644 --- a/package.json +++ b/package.json @@ -8,9 +8,9 @@ "url": "https://github.com/GSA/code-gov-api.git" }, "scripts": { - "start": "node app.js", + "start": "node app.js | ./node_modules/.bin/bunyan --color", "debug": "node --inspect app.js", - "index": "node ./scripts/index/index.js", + "index": "node ./scripts/index/index.js | ./node_modules/.bin/bunyan --color", "index-debug": "node --inspect ./scripts/index/index.js", "index-repos": "node ./scripts/index/repo/index.js", "index-terms": "node ./scripts/index/term/index.js", diff --git a/routes/utils.js b/routes/utils.js index 899ff5ca..f8f2a558 100644 --- a/routes/utils.js +++ b/routes/utils.js @@ -4,7 +4,7 @@ const git = require("git-rev"); const pkg = require("../package.json"); const Jsonfile = require("jsonfile"); const Utils = require('../utils'); -const repoMapping = require('../indexes/repo/mapping_200.json'); +const repoMapping = require('../indexes/repo/mapping_201.json'); const searchPropsByType = Utils.getFlattenedMappingPropertiesByType(repoMapping["repo"]); diff --git a/services/indexer/alias_swapper.js b/services/indexer/alias_swapper.js index b788d39c..c3399f76 100644 --- a/services/indexer/alias_swapper.js +++ b/services/indexer/alias_swapper.js @@ -63,7 +63,7 @@ class AliasSwapper extends AbstractIndexTool { * @param {any} repoIndexInfo Information about the index and alias for repos * @param {any} callback */ - static init(adapter, repoIndexInfo, callback) { + static init(adapter, repoIndexInfo, callback=undefined) { let swapper = new AliasSwapper(adapter); swapper.logger.info(`Starting alias swapping.`); @@ -117,7 +117,9 @@ class AliasSwapper extends AbstractIndexTool { swapper.logger.error(err); } swapper.logger.info(`Finished swapping aliases.`); - return callback(err); + if(callback && typeof callback === 'function'){ + return callback(err); + } }); } diff --git a/services/indexer/index_cleaner.js b/services/indexer/index_cleaner.js index 6e88206b..d32fa316 100644 --- a/services/indexer/index_cleaner.js +++ b/services/indexer/index_cleaner.js @@ -168,7 +168,7 @@ class IndexCleaner extends AbstractIndexTool { * @param {any} daysToKeep The number of days of indices to keep. * @param {any} callback */ - static init(adapter, repoAlias, daysToKeep, callback) { + static init(adapter, repoAlias, daysToKeep, callback=undefined) { let cleaner = new IndexCleaner(adapter); cleaner.logger.info(`Starting index cleaning.`); @@ -178,7 +178,9 @@ class IndexCleaner extends AbstractIndexTool { cleaner.logger.error(err); } cleaner.logger.info(`Finished cleaning indices.`); - return callback(err); + if(callback && typeof callback === 'function'){ + return callback(err); + } }); } diff --git a/services/indexer/index_optimizer.js b/services/indexer/index_optimizer.js index da533b75..e889802d 100644 --- a/services/indexer/index_optimizer.js +++ b/services/indexer/index_optimizer.js @@ -64,7 +64,7 @@ class IndexOptimizer extends AbstractIndexTool { * @param {any} repoIndexInfo Information about the index and alias for repos * @param {any} callback */ - static init(adapter, repoIndexInfo, callback) { + static init(adapter, repoIndexInfo, callback=undefined) { let optimizer = new IndexOptimizer(adapter); optimizer.logger.info(`Starting index optimization.`); @@ -74,9 +74,10 @@ class IndexOptimizer extends AbstractIndexTool { optimizer.logger.error(err); } optimizer.logger.info(`Finished optimizing indices.`); - return callback(err); + if( callback && typeof callback === 'function') { + return callback(err); + } }); - } } diff --git a/services/indexer/repo/index.js b/services/indexer/repo/index.js index 89943b45..f4d70c4e 100644 --- a/services/indexer/repo/index.js +++ b/services/indexer/repo/index.js @@ -6,7 +6,7 @@ const AbstractIndexer = require("../abstract_indexer"); const AgencyJsonStream = require("../repo/AgencyJsonStream"); const RepoIndexerStream = require("../repo/RepoIndexStream"); -const ES_MAPPING = require("../../../indexes/repo/mapping_200.json"); +const ES_MAPPING = require("../../../indexes/repo/mapping_201.json"); const ES_SETTINGS = require("../../../indexes/repo/settings.json"); const ES_PARAMS = { @@ -115,7 +115,7 @@ class RepoIndexer extends AbstractIndexer { }); }, (response, next) => { - Reporter.indexReport(indexer.esIndex) + Reporter.indexReport() .then(() => next(null, null)) .catch(err => { indexer.logger.error(err); diff --git a/services/indexer/status/index.js b/services/indexer/status/index.js index 8d740daa..a1b9b48d 100644 --- a/services/indexer/status/index.js +++ b/services/indexer/status/index.js @@ -1,5 +1,6 @@ const AbstractIndexer = require("../abstract_indexer"); const crypto = require("crypto"); +const Logger = require('../../../utils/logger'); class StatusIndexer extends AbstractIndexer { get LOGGER_NAME() { @@ -8,6 +9,7 @@ class StatusIndexer extends AbstractIndexer { constructor(adapter, params) { super(adapter, params); + this.logger = new Logger( { name: this.LOGGER_NAME }); } indexStatus (reporter) { @@ -23,6 +25,28 @@ class StatusIndexer extends AbstractIndexer { "body": JSON.stringify(reporter.report) }); } + + static init(reporter, adapter, esParams) { + const indexer = new StatusIndexer(adapter, esParams); + + indexer.logger.info(`Started indexing (${indexer.esType}) indices.`); + return indexer.indexExists() + .then(exists => { + if(exists) { + indexer.deleteIndex(); + } + }) + .then(() => indexer.initIndex()) + .then(() => indexer.initMapping()) + .then(() => indexer.indexStatus(reporter)) + .then(() => { + return { esIndex: indexer.esIndex, esAlias: indexer.esAlias }; + }) + .catch(error => { + this.logger.error(error); + throw error; + }); + } } module.exports = StatusIndexer; diff --git a/services/indexer/term/index.js b/services/indexer/term/index.js index 3ea39f6a..0f084c76 100644 --- a/services/indexer/term/index.js +++ b/services/indexer/term/index.js @@ -6,7 +6,7 @@ const getConfig = require('../../../config'); // NOTE: dependent on elasticsearch repos being indexed -const ES_REPO_MAPPING = require("../../../indexes/repo/mapping_200.json"); +const ES_REPO_MAPPING = require("../../../indexes/repo/mapping_201.json"); const ES_REPO_SETTINGS = require("../../../indexes/repo/settings.json"); const ES_REPO_PARAMS = { "esAlias": "repos", @@ -47,9 +47,9 @@ class RepoTermIndexerStream extends Writable { if (status) { this.logger.debug('termIndexer.indexDocument - Status', status); } - + this.termIndexer.indexCounter++; - + resolve(response); }) .catch(err => { diff --git a/services/reporter/index.js b/services/reporter/index.js index 623770e0..09e3b904 100644 --- a/services/reporter/index.js +++ b/services/reporter/index.js @@ -12,7 +12,10 @@ const StatusIndexer = require("../indexer/status"); const ElasticsearchAdapter = require("../../utils/search_adapters/elasticsearch_adapter"); const elasticsearchMappings = require('../../indexes/status/mapping.json'); const elasticsearchSettings = require('../../indexes/status/settings.json'); - +const AliasSwapper = require("../indexer/alias_swapper"); +const IndexCleaner = require("../indexer/index_cleaner"); +const IndexOptimizer = require("../indexer/index_optimizer"); +const DAYS_TO_KEEP = 7; class Reporter { constructor(config, loggerName) { @@ -72,19 +75,29 @@ class Reporter { this.report.statuses[itemName]["wasFallbackUsed"] = wasFallbackUsed; } - indexReport(index) { + indexReport() { const params = { - "esIndex": index ? index : undefined, - "esAlias": "repos", + "esAlias": "status", "esType": "status", "esMapping": elasticsearchMappings, "esSettings": elasticsearchSettings }; const adapter = new ElasticsearchAdapter(this.config); - const statusIndexer = new StatusIndexer(adapter, params); - - return statusIndexer.indexStatus(this); + return StatusIndexer.init(this, adapter, params) + .then(indexInfo => { + IndexOptimizer.init(adapter, indexInfo); + return indexInfo; + }) + .then(indexInfo => { + AliasSwapper.init(adapter, indexInfo); + return indexInfo; + }) + .then(indexInfo => IndexCleaner.init(adapter, indexInfo.esAlias, DAYS_TO_KEEP)) + .catch(error => { + this.logger.error(error); + throw error; + }); } writeReportToFile() { diff --git a/services/searcher/index.js b/services/searcher/index.js index 3ff93bca..8533e178 100644 --- a/services/searcher/index.js +++ b/services/searcher/index.js @@ -434,7 +434,7 @@ class Searcher { logger.info("Status searching"); this.client.search({ - index: 'repos', + index: 'status', type: 'status' }, (error, elasticSearchResponse) => { if(error) { diff --git a/test/unit/services/indexer/repo/repoIndexStream.test.js b/test/unit/services/indexer/repo/repoIndexStream.test.js index 847f8c50..c896135c 100644 --- a/test/unit/services/indexer/repo/repoIndexStream.test.js +++ b/test/unit/services/indexer/repo/repoIndexStream.test.js @@ -16,7 +16,7 @@ describe('Index given repo', function(done) { let indexer; let mockAdapter = new MockAdapter(); - const ES_MAPPING = require("../../../../../indexes/repo/mapping_200.json"); + const ES_MAPPING = require("../../../../../indexes/repo/mapping_201.json"); const ES_SETTINGS = require("../../../../../indexes/repo/settings.json"); const ES_PARAMS = { "esAlias": "repos",