It's a bit like chip stacking but on the nanometre scale. When you purchase through links on our site, we may earn an affiliate commission. Here’s how it works. With smaller process nodes becoming ...

Artificial intelligence (AI) has become the workload that defines today’s semiconductor scaling. Whether in hyperscale data centers training foundation models or at the network edge executing ...

That said, it's not actually all in one chip... When you purchase through links on our site, we may earn an affiliate commission. Here’s how it works. Nvidia's ever-optimistic CEO, Jensen Huang, has ...

It’s rather amazing how many electronic components you can buy right now are not quite the genuine parts that they are sold as. Outside of dedicated platforms like Mouser, Digikey and LCSC you pretty ...

The ability to make a very miniature on/off switch changed the world. These tiny switches, known as transistors, make up the basis of all modern computing—they drive your cell phones, your bank ...

A Planet Analog article, “2N3904: Why use a 60-year-old transistor?” by Bill Schweber, inspired some interest in this old transistor and how it’s commonly used, and if any uncommon uses might exist.

Add Yahoo as a preferred source to see more of our stories on Google. MIT engineers have developed a magnetic transistor that could pave the way for smaller, faster, and more efficient electronics. By ...

Transistors, the building blocks of modern electronics, are typically made of silicon. Because it's a semiconductor, this material can control the flow of electricity in a circuit. But silicon has ...

With the right mix of materials, TFETs promise cooler, smaller, and more efficient circuits for everything from the Internet of Things to brain-inspired computers. But before they can leave the lab, ...

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Imec is a world-leading research and innovation center in nanoelectronics and digital technologies. Imec has more than 6.000 employees and top researchers, for R&D in advanced semiconductor and system ...

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 ...