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
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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
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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

