Semiconductor engineering teams have long relied on an iterative simulation workflow: define the scenario, prepare the model, ...

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 introduction of full 3D-ICs will require a simultaneous analysis of various physical effects under different workloads, a step-function change that will add complexity at every step of the design ...

From racing sims to trucking games, realistic vehicle physics can make or break immersion. Developers and modders alike are pushing boundaries to replicate real-world handling, grip, and suspension ...

Flexcompute, Northrop Grumman, and NVIDIA have unveiled a physics-informed AI system that accelerates spacecraft plume impingement simulations by 100 times. The technology embeds physical laws into AI ...

Multiphysics simulation allows engineers to evaluate complex interactions in a single environment, reducing the need for physical prototypes. In healthcare, simulation helped design electromagnetic ...

Not so long ago, supply chain disruptions were limited to a dockyard strike or a storm off the Atlantic Coast. Now vulnerabilities are everywhere: A pandemic shuts down entire factories, tariffs shift ...

Particle physicists are building innovative machine-learning algorithms to enhance Monte Carlo simulations with the power of AI. Originally developed nearly a century ago by physicists studying ...