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nelyasi/README.md

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Seyed Navid Elyasi

I started programming at an early age, working with microcontrollers in C/C++ and building projects such as line-following robots. Over time, my interests evolved toward scientific computing and quantum technologies.

During my university studies, I used Python extensively for computational physics and numerical simulations. This later developed into a specialization in quantum technologies during my MSc, where I worked with frameworks including Qiskit, QuTiP, and Strawberry Fields.

My current research focuses on Quantum Data Centers and Distributed Quantum Computing, with broader interests in quantum systems, high-performance computing, and machine learning.

  • 🌍 Based in Gothenburg, Sweden
  • ✉️ Contact: elyasi@chalmers.se
  • 🚀 Researching Quantum Data Centers & Distributed Quantum Computing
  • 🧠 Currently exploring Machine Learning applications in scientific computing
  • 🤝 Open to collaborations and research proposals in Quantum Technologies

Skills


Publications

2026

  • Impact of Delay and Measurement Error on Remote Gate Fidelity in Quantum Data Centers
    S. N. Elyasi, R. Lin, P. Monti
    Optica Quantum 2.0, Glasgow, 2026

  • Feasibility of Distributed Measurement-Based Quantum Computing in Quantum Data Centers
    S. N. Elyasi, R. Lin, P. Monti
    Optica Quantum 2.0, Glasgow, 2026

  • Emulation of Optically Interconnected Quantum Data Center Topologies for Cost–Fidelity Benchmarking
    S. N. Elyasi, S. M. Ahmadian, R. Lin, P. Monti
    Optical Fiber Communication Conference (OFC), 2026

2025

  • Toward Quantum Data Centers: Noise Evaluation of Fiber-Based Interconnects Through Distributed Algorithm Emulation
    S. N. Elyasi, S. M. Ahmadian, J. Li, P. Monti, R. Lin
    European Conference on Optical Communications (ECOC), pp. 1–4, 2025

  • A Framework for Quantum Data Center Emulation Using Digital Quantum Computers
    S. N. Elyasi, P. Monti, J. Li, R. Lin
    arXiv:2509.04029, 2025
    View Publication

  • Experimental Simulation of Daemonic Work Extraction in Open Quantum Batteries on a Digital Quantum Computer
    S. N. Elyasi, M. A. C. Rossi, M. G. Genoni
    Quantum Science and Technology, 10(2), 025017, 2025

  • Waveguide Evanescent Field Fluorescence Microscopy Images of Osteoblast Cells: The Effect of Trypsin and Image Processing Using TrackMate
    A. Hassanzadeh, S. N. Elyasi, S. Salih, S. S. Abdulkareem, S. R. Saeed
    Microscopy Research and Technique, 88(5), 1326–1334, 2025

  • Implementing Direct Three-Tangle Measurement of Tripartite GHZ States on IBM Quantum Platforms
    S. N. Elyasi, M. Yahyavi, N. Karimi
    Quantum Information Processing, 24(1), 26, 2025

  • Implementation and Measurement of Quantum Entanglement Using IBM Quantum Platforms
    N. Karimi, S. N. Elyasi, M. Yahyavi
    Physica Scripta, 99(4), 045121, 2024


Socials


Research Focus


Technical Profile


Pinned Loading

  1. mapomatic mapomatic Public

    Forked from qiskit-community/mapomatic

    Automatic mapping of compiled circuits to low-noise sub-graphs

    Python

  2. OQB-implementation---Batsim OQB-implementation---Batsim Public

    This repository offers a detailed explanation of the protocol introduced in our paper, along with all associated data and visualizations presented in the publication.

    Jupyter Notebook 1

  3. tempoCollaboration/OQuPy tempoCollaboration/OQuPy Public

    A Python package to efficiently simulate non-Markovian open quantum systems with process tensors.

    Jupyter Notebook 107 35