Quantum technology has reached a turning point, echoing the early days of modern computing. Researchers say functional ...

The traditional wafer foundry model is transforming as leading foundries increasingly incorporate intellectual property (IP) into mature technology nodes to address economic pressures and shifting ...

The growth and impact of artificial intelligence are limited by the power and energy that it takes to train machine learning ...

Researchers are increasingly framing quantum as moving from “science” to “engineering and scale”—a “transistor-era” shift.

Quantum computing technology is complex, getting off the ground and maturing. There is promise of things to come. potentially changing the computing paradigm.

"Sushi-rolled" fiber chips are turning ordinary clothing into powerful, durable computers capable of image recognition and health monitoring.

Explore the decline of repair culture in Bengaluru and its environmental impact, urging a return to sustainable practices.

Ghanaian student Tyrone Iras Marhguy, now at the University of Pennsylvania, has built a working computer brain from scratch ...

From computers to smartphones, from smart appliances to the internet itself, the technology we use every day only exists ...

Traditional chips depend on flat, inflexible wafers; the Fudan team replaced these with elastic substrates capable of hosting resistors, capacitors, diodes, and transistors. Once patterned, each ...

Quantum computing is nearing the point of practical use, but scientists still need to make some specific breakthroughs.

When given a target functionality, usually a particular pattern of heat conductivity, this algorithm can slowly hone in on the best possible design. The researchers refer to this as "inverse design," ...