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 ...

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

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 ...

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

For nearly two decades, two‑dimensional (2D) semiconductors have been studied as a complement or possible successor to silicon transistors, promising ...

Physicist Paul Davies looks back at the past century of quantum mechanics—the most disruptive theory in the history of modern science.

If executed at the scale, Musk's orbital data center plan could have devastating effects on the environment and the ...

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

They are so small that billions of transistors can sit on a chip no bigger than a fingernail, yet they are powerful enough to run data centres, smartp.

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

OLED panels have excellent black levels, while LED screens boast greater longevity -- or do they? We examine lifespan and ...