19 y/o | Algerian | International Student in Paris
Hardware & Electronics
I am an engineering student at Université Paris-Saclay, bridging the gap between theoretical physics and hardware implementation. My background includes intensive training in the CPGE (MPSI/PSI) curriculum, where I developed a rigorous approach to mathematical modelling and system design.
My journey began at age 9, driven by an obsessive curiosity to dismantle and rebuild the digital world. Over the last decade, I explored the full spectrum of technology from engines to developing neural networks, data science to full-stack development. Today, I have pivoted from pure software to Physics-Aware Engineering, interested by numerous topics, I try to learn and study with all the resources I have access to, no matter how hard. While I remain a software engineer by hobby on one hand, my academic focus has shifted to the hardware limits of computing and a more physics-based approach, as it remains my main interest and software and computation give me the tools to simulate physics. I am deeply interested in Neuromorphics and Hardware-Software Co-design—seeking to bridge the gap between biological efficiency and silicon speed.
I don't just write code; I simulate the physics that makes the code run and do the math at the purest level. I try to bring any physics problem or project back to linear algebra and analysis problems.
Currently, my research focuses on Quantum Transport, Neuromorphic Architectures, and RF Engineering. I work in building high-performance simulation engines and designing physics-aware hardware systems.
| Domain | Project | Tech Stack |
|---|---|---|
| Quantum Physics | NEGF Quantum Transport Simulator Developed a solver using the Non-Equilibrium Green’s Function formalism to model electron transport and tunneling in Resonant Tunneling Diodes (RTDs). |
Julia Numerical Methods |
| Neuromorphic | Memristive Crossbar Analysis Simulation of HP-type memristors to analyze IR-drop and sneak path currents in neuromorphic computing architectures. |
SPICE Julia Python |
| RF Engineering | 2.4 GHz CMOS LNA Design Design and noise figure analysis of an Inductively Degenerated Cascode Low Noise Amplifier for RF applications. |
CMOS Impedance Matching |
| Simulation | Inertia Physics Engine A GLSL compute-shader engine for parallel N-body dynamics and Schrödinger equation visualization. |
Rust OpenGL GLSL |
- 2nd Place — Hackathon 2025 with ANFR in Paris
- AI Coding Competition — American University of Sharjah (AUS/ASCC), UAE
- First Slingshot Coding Competition — Participant
- Avid movie watcher & music enthusiast
- Creative projects in writing, digital art (Blender, etc.)
- Always experimenting, always creating
- Member of the Université Paris-Saclay Debate Club
“And though I'm no Olivier, If he fought Sugar Ray, He would say, That the thing ain't the ring, it's the play. So give me a... stage Where this bull here can rage / And though I could fight I'd much rather recite... that's entertainment..” ,The Raging Bull