Wolfram-like attention framing meets spiking networks: event-triggered, energy-thrifty AI that “wakes” to stimuli.

A Japanese research team has successfully reproduced the human neural circuit in vitro using multi-region miniature organs ...

A research team led by Dr. Àlex Bayés, Head of the Molecular Physiology of the Synapse Group at the Institut de Recerca Sant ...

Rock-paper-scissors is usually a game of psychology, reverse psychology, reverse-reverse psychology, and chance. But what if ...

Among other enhancements, the new Alli AI system also offers an advanced module for color correction and working with dynamic range, which is critical for achieving a cinematic look. The platform now ...

A single missing molecule in the brain is emerging as a powerful new clue to why learning and memory are altered in Down syndrome, and why those circuits might not be as fixed as once feared. By ...

New research shows that neurons can stabilize their signaling using a fast, physical mechanism — not the electrical activity ...

New research shows how CCN1, a protein secreted by astrocytes, is critical for stabilizing neural circuits in adulthood.

Developing chips that simulate how the brain works has great promise for AI, robotics, and other fields. But making them so ...

An ultra-low-power neural device that operates by controlling the flow of ions instead of electrons, unlike conventional semiconductor-based devices, has been developed. It is up to 50 times more ener ...