In the summer of 1961, my transistor radio, turned to full volume, played “Runaway” by Del Shannon, “Will You Still Love Me ...

This leads to a common difficulty: ensuring the switching transistor and rectifying diode are fast enough at the required current level with enough margin. [Mirko] points out several components ...

MIT researchers developed 3D transistors for more efficient electronics, utilizing quantum tunneling for low-voltage ...

MIT researchers have developed a new type of 3D transistor that could be more energy-efficient and powerful than current ...

Edge computing devices, devices located in proximity to the source of data instead of in large data centers, could perform computations locally. This could reduce latency, particularly in real-time ...

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

The problem they're tackling is what's known as "Boltzmann tyranny." It refers to the fundamental limit to how little voltage is required to switch a silicon ...

Jensen Huang, the CEO of Nvidia discussed on the No Priors AI-focused podcast the concept of "Hyper Moore’s Law." ...

As understood from Chapter 5, the bipolar junction transistor is a current amplifier of its own. However, it can be made to amplify voltage also, as will be discussed in this chapter. The key factor ...

A new technical paper titled “Dual-Layer Thin-Film Transistor Analysis and Design” was published by researchers at Oregon ...

Researchers from MIT and University of Udine fabricated a transistor that uses ultrathin layers of gallium antimonide and ...

Learn why Applied Materials is a buy despite geopolitical risks, with growth expected in Q4 earnings and a positive outlook.