The original version of this story appeared in Quanta Magazine. A few centuries ago, the swirling polychromatic chaos of Jupiter’s atmosphere spawned the immense vortex that we call the Great Red Spot ...

A new AI developed at Duke University can uncover simple, readable rules behind extremely complex systems. It studies how systems evolve over time and reduces thousands of variables into compact ...

The puzzle of emergence asks how regularities emerge on macro scales out of uncountable constituent parts. A new framework has researchers hopeful that a solution is near. A few centuries ago, the ...

Large Quantitative Models (LQMs) are becoming increasingly significant in the world of technology and finance. These models, built on the foundations of physics, chemistry, economics and other ...

Duke University engineers are using artificial intelligence to do something scientists have chased for centuries; turn messy, real-world motion into simple rules you can write down. The work comes ...

Scientists report on how higher-order interactions can reshape a system at large -- even global -- scales. Networks, which include nodes and connections, can help researchers model dynamic systems ...

Today, teams often rely on disconnected logs, postmortems, and ad-hoc debug when failures emerge in the field. Lifecycle ...

Embracing the paradigm shift of agentic AI could lead to massive advancements in healthcare as we know it. Provided byOwkin The complexity of biology has long been a double-edged sword for scientific ...

Calvin Hennick is a freelance journalist who specializes in business and technology writing. He is a contributor to the CDW family of technology magazines. NASA has more programs today than at any ...