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 ...

The three-dimensional simulation of the exotic supernova reveals the turbulent structures generated during the material ejection in the explosion. These turbulent structures subsequently impact the ...

What if robots could be trained in full digital factories before touching the real world? Can a simulation model make that possible?

Explore Python Physics Lesson 10 and learn how to visualize a mass on a spring in 3D using Python simulations. This lesson walks you through modeling oscillatory motion, understanding spring dynamics, ...

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 ...

Today’s 3D integrated circuit (3D-IC) technology is the culmination of 40 years of research in universities and laboratories scattered across the globe. Beginning with dynamic random-access memory ...

The semiconductor industry is at a pivotal moment as the limits of Moore’s Law motivate a transition to three-dimensional integrated circuit (3D IC) technology. By vertically integrating multiple ...

World models could revolutionise robotics by teaching AI physics. But data bottlenecks and infrastructure limits delay ...

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 ...