Duke engineers show how a common device architecture used to test 2D transistors overstates their performance prospects in real-world devices.

Lab architecture used to test 2D semiconductors artificially boosts performance metrics, making it harder to assess whether these materials can truly replace silicon.

For almost two decades, scientists have been trying to move beyond silicon, the material ...

Nanoscale molybdenum disulfide memristors integrated onto standard CMOS chips achieve the lowest switching voltage reported ...

The industry’s response is to split compute, memory, and I/O across dies, XPU chiplets are pushing toward the reticle limit, and stitch it all together with high‑bandwidth, energy‑efficient die‑to‑die ...

Remember when gas was less than a dollar a gallon? Or when TV stations signed off each night? If these memories spark a warm ...

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

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 ...

Learn about agentic design automation, which Mark Ren, CEO of Agentrys and DesignCon keynote speaker, says will lead us into ...

Researchers in the United States have developed a new technique that can spot hidden ...

It's called NanoFab Reflection. It's expected to cost $614 million to build and is part of a $10 billion computer chip ...