Shrinking silicon transistors have reached their physical limits, but a team from the University of Tokyo is rewriting the rules. They've created a cutting-edge transistor using gallium-doped indium ...

Peking University transistor could outperform Intel, TSMC, and Samsung’s top silicon chips Full gate coverage boosts speed and cuts energy use in breakthrough Chinese transistor design China may have ...

As computing demands grow, driven by artificial intelligence and the internet of things, the need for energy-efficient electronics becomes critical. At the heart of this evolution are transistors, the ...

Why it matters: Silicon transistors are great, but just like any other object in the physical world, they are held back by a few limitations. The laws of physics put a bottleneck on performance and ...

New chipmaking systems boost the energy-efficient performance of Gate-All-Around transistors and wiring at 2nm and beyondViva™ pure radical ...

Shrinking computers, faster phones, and smarter gadgets all rely on one tiny component: the transistor. Invented in the 20th century, it’s what powers nearly every modern electronic device.

The growing energy use of AI has gotten a lot of people working on ways to make it less power hungry. One option is to develop processors that are a better match to the sort of computational needs of ...

Nanoscale 3D transistors made from ultrathin semiconductor materials can operate more efficiently than silicon-based devices, leveraging quantum mechanical properties to potentially enable ...

Associate Professor Mario Lanza and his team demonstrated a groundbreaking silicon transistor that mimics neural and synaptic behaviours, marking a significant breakthrough in neuromorphic computing.

Many things about diamonds seem eternal, including the many engineering problems related to making them work as a silicon ...