KAIST researchers have developed the world’s smallest DNA-based molecular computer that can both process and store information, overcoming the one-time-use limitation of earlier designs. The system ...

Until now, molecular-level DNA circuits have mainly been used for simple tasks, such as detecting the presence of ...

Precise electrons damage chips from the inside and reveal a quantum flaw that could revolutionize modern electronics.

Until now, molecular-level DNA circuits have mainly been used for simple tasks, such as detecting the presence of ...

In the ages before convenient global positioning satellites to query for one’s current location military aircraft required ...

AI workloads need to position more memory that uses less power in ever-closer proximity to computational logic. That overriding imperative is driving new memory designs and new materials exploration ...

Before transistors and microchips, engineers had limited options for building computing machines. Light bulbs, known as vacuum tubes, were the only components fast and reliable enough to perform ...

XHEMT device includes ultra-thin layer of GaN built on bulk single-crystal AlN Cornell researchers have developed a new transistor architecture that they believe could reshape how high-power wireless ...

NPR's series Cost of Living: The Price We Pay is examining what's driving price increases and how people are coping after years of stubborn inflation. How are higher prices changing the way you live?

Quantum computing might sound like the kind of sci-fi plot device used to explain how a character traveled through time or shrank to the size of an ant. But the technology is very real, and Silicon ...