Solar panels and wind turbines increasingly dot the landscape, but the future of clean energy may well depend on how smoothly ...

Engineers have long battled a problem that can cause loud, damaging oscillations inside gas turbines and aircraft engines: ...

New pre-print describes codes that “move” logical ancilla qubits up and down to significantly reduce the error rate ...

A collaborative effort from TU Wien, alongside teams from the United States and Switzerland, has demonstrated that artificial intelligence can significantly advance progress in integrating quantum ...

Information theory and network physiology are rapidly converging fields that offer powerful frameworks for unraveling the complexities of living systems. At ...

How can quantum field theories be best formulated on a lattice to optimally simulate them on a computer? The answer comes ...

Federal experts working in quantum information sciences and technology mapped out commercialization paths for quantum ...

This configuration allows for the analysis of data in real-time as experiments occur. A primary experimental connection for the platform is the National Spherical Torus Experiment-Upgrade (NSTX-U) at ...

What if traffic could compute? This may sound strange, but researchers at Tohoku University's WPI-AIMR have unveiled a bold ...

What if your reality was nothing more than a complex computer simulation? And if you were just a program on someone else’s hard drive, how would you know? The Trump administration might’ve gone one ...

Of all the technology topics covered by industry analysts, financiers and pundits over the course of 2025, perhaps the most interesting was that of the so-called artificial intelligence (AI) bubble.

AI supercomputer network performance has become a blocker to training larger AI models. Analytically modeling such networks is virtually impossible, and the cost and time of building prototypes is ...