AI agents are moving from demos to deployment. Leaders from Salesforce, PepsiCo, DeVry and more reveal how they’re driving ...

This is the last of three blog posts associated with this week’s episode of Cosmos: A Spacetime Odyssey, which addresses life in the universe. Read the first and second here. Someday, in the not too ...

During Domestic Violence Awareness Month, a KY expert wonders why we expect survivors to solve the problem of abuse.

From industrial robots to self-driving cars, engineers face a common problem: keeping machines steady and predictable. When ...

Most explanations rely on "dark energy" to explain the Universe's accelerating expansion rate, but a new study takes a different path.

Penn Engineers have developed a mathematical "Rosetta Stone" that translates atomic and molecular movements into predictions ...

When you combine the reality of projects not penciling with the dollars needed to meet higher expectations, the current demands are at odds with each other. Fortunately, those demands have solutions.

TWA is one such semiclassical approach that dates back to the 1970s, but is limited to isolated, idealized quantum systems ...

“The Copernican principle is a cornerstone of most of astronomy, it is assumed without question, and plays an important role ...

A team at the University at Buffalo has made it possible to simulate complex quantum systems without needing a supercomputer.

Physics simulations have a problem—engineers who need those simulations’ results often don’t have time to wait. Add in real-world settings with multiple independent calculations required (for example, ...

Abstract: A discrete-time distributed algorithm to solve a system of linear equations Ax = b is proposed with M-Fejer mappings. The algorithm can find a solution of Ax = b from arbitrary ...