- Updated: February 16, 2026
- 2 min read
GPU‑Accelerated 2D Coulomb Gas Simulator Revolutionizes Particle Interaction Modeling
GPU‑Accelerated 2D Coulomb Gas Simulator Revolutionizes Particle Interaction Modeling
UBOS is proud to introduce a cutting‑edge, browser‑based 2D Coulomb Gas simulator that leverages the power of modern GPUs to render thousands of interacting particles in real time. Built on WebGL and WebGPU technologies, the tool provides researchers, educators, and enthusiasts with an interactive platform to explore electrostatic phenomena, statistical mechanics, and complex many‑body systems.
The simulator visualizes particles that obey the classic Coulomb Hamiltonian, allowing users to adjust parameters such as particle number, temperature, confinement potentials, and boundary conditions. Thanks to GPU acceleration, simulations that previously required dedicated scientific software now run smoothly in any modern browser, delivering instant visual feedback and high‑resolution graphics.
Key features include:
- Real‑time rendering of up to tens of thousands of particles.
- Customizable interaction potentials (e.g., harmonic, logarithmic).
- Dynamic control panel for temperature, external fields, and particle injection.
- Exportable data for further analysis.
For a deeper dive into the physics behind the Coulomb gas and its applications in mathematics and condensed‑matter research, visit the original project page.
Explore related UBOS tools and resources:
Stay tuned for upcoming features, including 3D extensions, advanced statistical analysis modules, and integration with external scientific libraries.