Duke engineers show how a common device architecture used to test 2D transistors overstates their performance prospects in real-world devices.
By applying voltage to electrically control a new "transistor" membrane, researchers at Lawrence Livermore National Laboratory (LLNL) achieved real-time tuning of ion separations—a capability ...
Adding big blocks of SRAM to collections of AI tensor engines, or better still, a waferscale collection of such engines, turbocharges AI inference, as has ...
Many things about diamonds seem eternal, including the many engineering problems related to making them work as a silicon ...
Future devices will continue to probe the frontier of the very small, and at scales where functionality depends on mere atoms, even the tiniest flaw matters. Researchers at Rice University have shown ...
Quantum computing could be even more revolutionary than artificial intelligence. The calculation speeds and potential benefits of the technology have the potential to bring about everything from ...
Abstract: Emerging transistors lack the statistical compact models needed to evaluate the yield of integrated circuits. To address this, we propose a novel framework combining a variational ...
Abstract: This paper presents a 12.5-19 GHz 5-bit vector modulated active phase shifter. The phase shifter is comprised of an input matching network, a resistor-capacitor (RC)-resistor-inductor (RL) ...
A smart DNS service can complement -- or even replace -- a VPN for streaming. Here’s how the two are alike and how they ...
Choosing the proper transmission-line topology can make or break channel-to-channel isolation when it comes to PCBs carrying ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results