This review describes various types of low-power memristors, demonstrating their potential for a wide range of applications. This review summarizes low-power memristors for multi-level storage, ...

The latest research progress in the field of MXene-based neuromorphic computing is reviewed. The design strategy of MXene-based neuromorphic devices encompasses multiple factors are summarized, ...

Intel, IBM, and MythWorx are shrinking AI to run on 20 watts, the same power as the human brain. Inside the neuromorphic race to make enterprise AI lean again.

Princeton University researchers have created a 3D bioelectronic device that integrates living brain cells with embedded electronics, enabling low-power pattern recognition. The biohybrid system could ...

This collection supports and amplifies research related to SDG 9 - Industry, innovation and infrastructure. The exploration of two-dimensional materials has garnered significant attention in recent ...

Researchers have developed printable artificial neurons capable of communicating with living mouse brain cells, marking a milestone in neuromorphic engineering. The technology, detailed in Nature ...

An international team comprised of 23 researchers has published a review article on the future of neuromorphic computing that examines the state of neuromorphic technology and presents a strategy for ...

The UK's Science, Innovation and Technology Committee has opened a short inquiry into whether so-called low-energy computing ...

Our latest and most advanced technologies — from AI to Industrial IoT, advanced robotics, and self-driving cars — share serious problems: massive energy consumption, limited on-edge capabilities, ...

A human’s way of processing information can be used as a model to train next-generation artificial intelligence (AI) systems, according to research published Jan. 22 in Nature. Cory Merkel, an ...