For nearly two decades, two-dimensional (2D) semiconductors have been studied as a complement or possible successor to silicon transistors, promising smaller, faster and more energy-efficient ...

The technology industry is obsessed with the future. Many of our modern marvels are rooted in the legacy of Bell Labs, an ...

In this video, we explore the fundamental components of computers, beginning with transistors and their role in CPUs. The ...

Just like each person has unique fingerprints, every CMOS chip has a distinctive "fingerprint" caused by tiny, random manufacturing variations. Engineers can leverage this unforgeable ID for ...

Aaron Franklin studies nanomaterials as disruptive complements or replacements for conventional silicon technology.

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 ...

With AI buying up the worldwide supply of DRAM and hard drives, a wide swath of industries from automotive to cellular to PCs will face Armageddon times.

AI optimists envision a future where artificial general intelligence (AGI) surpasses human intelligence, but the path remains riddled with scientific and logistical hurdles.

Researchers at UNSW have discovered a new way to make graphene, a remarkable "wonder material," using just discarded peanut ...

Just like each person has unique fingerprints, every CMOS chip has a distinctive "fingerprint" caused by tiny, random manufacturing variations ...

Quantum computing technology is complex, getting off the ground and maturing. There is promise of things to come. potentially ...