This video demonstrates how to model rigid objects using springs in a Python physics simulation. We explore how spring forces approximate rigidity, analyze motion and stability, and visualize the ...

In this video, we use Python to compare center and edge impacts in a physics simulation. Learn how impact position affects motion, force distribution, and outcomes through clear visualizations and ...

With its fully open-source assets, data, and codebase, Genie Sim 3.0 aims to accelerate embodied AI development while ...

Luminary is rethinking physics simulation workflows spanning GPU clusters from the ground up. The new company hopes the new architecture and business model will impact the simulation industry as much ...

For decades, simulation has been the cornerstone of scientific discovery and hardware design. But despite the advances we’ve made in computing power and tooling, the way we run simulations hasn’t ...

The simulation hypothesis—the idea that our universe might be an artificial construct running on some advanced alien computer—has long captured the public imagination. Yet most arguments about it rest ...

Nvidia it is working with Google Quantum AI to accelerate the design of its next-generation quantum computing devices using simulations powered by Nvidia. Google Quantum AI is using the hybrid quantum ...

The concept that we are all computer-generated characters occupying a world as real as the ones gamers explore on their PlayStation consoles isn't exactly a new one. As far back as 1999, Morpheus was ...

A new research paper reframes the simulation hypothesis, asking whether reality could be simulated and what science can test.

In the pharmaceutical discovery process, understanding a drug’s residence time—the duration a molecule remains bound to its ...