Researchers have developed the first Milky Way simulation capable of tracking over 100 billion stars for ten thousand years.

Harnessing the muscle of one of the world's fastest supercomputers, researchers have built one of the largest and most ...

Dewret was originally developed to support a real client open source need in photonics, and is spreading across our work in ...

At Simulation World Detroit, executives shared their views on the early integration of AI, data, models, and simulations to ...

Intercontinental Exchange, Inc. (NYSE:ICE), a leading global provider of technology and data, and home to the largest and ...

MBZUAI’s Institute of Foundation Models introduces PAN, a model that keeps video scenes consistent over time using a Generative Latent Prediction framework. Benchmarks highlight planning and ...

Overview: Robots are evolving from programmed machines to independent thinkers, capable of seeing, deciding, and acting in ...

Classical computations rely on binary bits, which can be in either of the two states, 0 or 1. In contrast, quantum computing is based on qubits, which can be 0, 1, or a superposition or entanglement ...

As platforms embrace this customizable model, it’s worth examining what makes it so powerful—and where its challenges lie.

Researchers combined AI and supercomputers to simulate 100 billion stars, reproducing galactic phenomena faster than ever, opening possibilities for astrophysics and other scientific disciplines.

Fusion Worldwide’s global sourcing network demonstrates how clarity amid market noise can deliver strategic advantage. By ...

Artificial intelligence is transforming how the U.S. military prepares for war, replacing routine drills with adaptive, ...