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 ...

On target A new method for precisely moving columns of individual atoms within a material could give rise to exotic quantum ...

AI models trained on the mathematics of physical systems are emerging as tools to deliver engineering simulation results in seconds, potentially accelerating design iteration cycles. Approaches like ...

The Anderson transition is a phase transition that occurs in disordered systems, which entails a shift from a diffusive state (i.e., in which waves or particles are spread out) to a localized state, ...

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 ...

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 ...

With just an iPad, students in any classroom across the world could soon reimagine the ordinary diagrams in any physics textbook—transforming these static images into 3D simulations that run, leap or ...

Google has updated Gemini to generate interactive 3D models and simulations from text prompts. Users can now manipulate variables in physics systems, rotate molecules, and explore data trends in ...

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 ...