Physical reservoir computing (PRC) utilizing synaptic devices shows significant promise for edge AI. Researchers from the Tokyo University of Science have introduced a novel self-powered ...

A technical paper titled “Charge-Mediated Copper-Iodide-Based Artificial Synaptic Device with Ultrahigh Neuromorphic Efficacy” was published by researchers at University of Glasgow, City University of ...

A team from Tokyo University of Science has developed a solar cell-based computing device that mimics human synaptic behaviour to use in edge AI processing. The researchers say the device has the ...

A pressure-mechanical integrated synaptic device inspired by human skin mechanoreceptors and synapses that recognizes different touch patterns for discrete affective state classification. Human ...

In a recent article published in Nature Communications, researchers from China presented a significant advancement in neuromorphic computing through the development of ultra-low-power carbon ...

A technical paper titled “28 nm high-k-metal gate ferroelectric field effect transistors based synapses- A comprehensive overview” was published by researchers at Fraunhofer-Institut für Photonische ...

SAN JOSE, Calif., Jan. 08, 2026 (GLOBE NEWSWIRE) -- Synaptics® Incorporated (Nasdaq: SYNA) today announced its participation in upcoming investor conference.

Collaboration combines Origin AI's proven motion-sensing technology with Synaptics' Veros™ WiFi® connectivity solutions to enable seamless and scalable integration in the smart home ecosystem.

The novel physical reservoir computing device with controllable time constants mimics human synaptic behavior for efficient edge AI processing. The device can accurately detect human movement while ...