Researchers from the National University of Singapore (NUS) have demonstrated that a single, standard silicon transistor, the ...

During a Q&A session at the GPU Technology Conference, Huang estimated a roughly 20% performance uplift from transitioning to ...

A RIKEN study shows that squeezing the right amount of potassium ions between the atomic layers of molybdenum disulfide can ...

Examples like Intel's Loihi chips tend to get competitive performance out of far lower clock speeds and energy use, but they ...

Their newly developed 2D transistor is said to be 40% faster than the latest 3-nanometre silicon chips from Intel and TSMC while consuming 10% less energy. This innovation, they say, could allow ...

The researchers, led by physical chemistry professor Peng Hailin, said their self-engineered 2D transistor could operate 40 per cent faster than Intel and TSMC’s cutting-edge 3-nanometre silicon ...

For the longest time, there's been a golden rule in technology, often shorthanded as Moore's Law: Every year, transistors get smaller, and devices get faster and more capable as a result.

Electrical Engineering and Computer Sciences, University of California, Berkeley, California 94720, United States Materials Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, ...

Instead, I’ve used an NPN transistor. The 2N3904 conveniently has a 200mA limit which is enough to handle the 140 mA sinking from the display. These transistors work like a switch, requiring ...