The next big jump in transistor evolution came with the field-effect transistor. Most modern transistors are field-effect transistors -- specifically metal-oxide semiconductor field-effect ...

a general rule that is central to the evolution and success of the computer industry. The rule states that the number of transistors on a computer chip doubles about every 18 months, driving rapid ...

Without the transistor technology, our lifestyle would have been stuck in the 1950s. It's the power of transistors that have fueled the evolution of various electronic gadgets – from portable ...

The first transistor was about half an inch high. That's mammoth by today's standards, when 7 million transistors can fit on a single computer chip. It was nevertheless an amazing piece of technology.

At the heart of this evolution are transistors, the fundamental building blocks of modern devices. However, silicon-based ...

Gate-all-around field-effect transistors, GAAFET for short, are the next evolution of transistor technology after MOSFETs and FINFETs. Innovation in transistors has largely been driven by better ...

While it is hard to imagine today, securing a license to produce transistors was difficult in the early days. What’s worse is, even with the license, it was not feasible to use the crude devices ...

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.

Not that the present situation and the abundance of free time that many are experiencing has anything to do with [Leo Fernekes] all-transistor digital clock build, which he started a year ago ...

The Feynman generation and those that follow will likely adopt semiconductor nodes featuring gate-all-around (GAA) transistors – the next evolution in transistor technology after FinFET.

The same layered material can be made to behave as a superconductor, metal, semiconductor or insulator by using a transistor device developed by RIKEN physicists to tweak its electronic properties.

A paper published in Nature on Wednesday describes a way to get plain-old silicon transistors to behave a lot like an actual neuron. And unlike the dedicated processors made so far, it only ...