Researchers from The University of Texas at Dallas' Center for Advanced Pain Studies (CAPS) and their colleagues have made a ...

But now, in the age of artificial intelligence, it is increasingly constrained by limitations that cannot adequately meet ...

The authors have performed a potentially valuable new kind of analysis in connectomics, mapping to an interesting developmental problem of synaptic input to sensory neurons. While the analysis itself ...

Researchers from The University of Texas at Dallas' Center for Advanced Pain Studies (CAPS) and their colleagues have made a fundamental discovery ...

As artificial-intelligence workloads explode, the energy cost and latency of shuttling data between discrete sensors, memory and processors have ...

Researchers have created one of the most detailed virtual mouse cortex simulations ever achieved by combining massive ...

New research reveals that neurons release a little-understood extracellular kinase called VLK to strengthen synaptic ...

If this neuromorphic machine is real, it’s a milestone for neuroscience—and a test of what AI can and can’t replace.

Scientists used one of the world's fastest supercomputers to create an unusually detailed virtual model of the mouse cortex, ...

For decades, brain aging sounded like a one-way street: neurons slow down, memory slips, and the best anyone could hope for ...

A computer model developed by researchers from Japan and Seattle's Allen Institute could lead to new methods for studying ...

This valuable study uses mathematical modeling and analysis to address the question of how neural circuits generate distinct low-dimensional, sequential neural dynamics that can change on fast, ...