Understanding the universe as a whole requires simulations on cosmic scales. An international team of astrophysicists, with a ...

Researchers from BIFOLD and Google DeepMind have developed MD-ET, a transformer-based molecular dynamics model that achieves state-of-the-art results without encoding traditional physical constraints ...

Researchers from BIFOLD and Google DeepMind have created MD-ET, a transformer-based molecular dynamics model that achieves state-of-the-art results without embedding physical laws like energy ...

Overview: Today's high-performance cloud simulators surpass previous limits in handling qubits and accurately replicate complex quantum systems. Community- ...

A real-time IoT weather monitoring system using a simulated sensor that streams temperature and humidity data every second into InfluxDB Cloud with auto-refresh dashboards.

PhysSim is a physics simulation engine that predicts olfactory mixture similarity by evolving molecular embeddings under four fundamental forces in a learned latent space. Unlike GNN-based approaches ...

Abstract: We present FieldGPU, a CUDA-accelerated reimplementation of the Field II ultrasound simulation framework, accessible as a Python package. FieldGPU leverages GPU parallelism to improve ...

Abstract: This paper introduces PyWiSim, a Python-based simulation framework designed for wireless systems that falls somewhere between a link simulator and a system simulator. Link simulators model ...

Researchers at The University of Manchester have created a physics‑informed machine‑learning model that can run molecular simulations for unprecedented lengths of time, even at temperatures as high as ...

The idea is there is the red hot glow to show the 'extreme' temperatures of our simulations, and some molecules with blurred motion effects to show that it is a simulation. The study, published in ...