Electronic devices power everyday life, from smartphones to medical sensors. Yet, as these gadgets grow in number, so does the mounting challenge of electronic waste, or e-waste. Physically transient ...

The idea of a living organism replacing a silicon chip inevitably evokes science-fiction scenarios. However, a recent study reveals that fungal networks can exhibit electrical behaviors akin ...

Scientists have found that mushrooms can act as organic memory devices, mimicking neural activity while consuming minimal power. The Ohio State team grew and trained shiitake fungi to perform like ...

Illustration of the similarity between a CuMnAs-based antiferromagnetic analog memory device and a biological synapse. As electronic devices generate increasing amounts of waste heat, interest in ...

A hybrid computer uses rotating mechanical beams for memory and electrical contacts for logic, performing reprogrammable computation through physical motion in environments where conventional ...

There’s never been more pressure on memory to meet the demands of new applications — everything from edge computing and the internet of things (IoT) to increasingly smarter phones and smart cars.

(Nanowerk Spotlight) The human brain processes complex information while consuming merely the power of a dim light bulb. This remarkable efficiency stems from synapses, the connections between brain ...

TOKYO--(BUSINESS WIRE)--Kioxia Corporation, a world leader in memory solutions, today announced that it has begun sampling (1) new Universal Flash Storage (2) (UFS) Ver. 4.1 embedded memory devices ...

Demand for memory chips currently exceeds supply and there's little chance of that changing anytime soon. More chips for AI means fewer available... Memory loss: As AI gobbles up chips, prices for ...