Researchers used electrical signals to send and receive information from brain organoids so they can learn to get better at tasks.

No body, no dopamine, no problem. Scientists have successfully coached lab-grown brain tissue to solve a classic robotics challenge, proving that the will to learn is hardwired into our neurons.

Imagine arriving at a busy location with people moving around and a multitude of visual and other sensory cues vying for your attention. How does the brain integrate such floods of sensory information ...

How did Aztec solve the "Privacy vs. Programmability" paradox? We explore the Noir language and the Streaming EVM, and how ...

A few blobs of lab-grown brain tissue have demonstrated a striking proof of concept: living neural circuits can be nudged toward solving a classic control problem through carefully structured feedback ...

How do you make the complex reality of chips and electronics accessible to a broad audience? TU/e researcher Elles Raaijmakers believes an educational game can do just that. In the game I.C. Tycoon ...

With Super Bowl LX in the books and the last of the league’s coaching vacancies filled, the next major period of NFL drama is the quarterback carousel. While surprises could always push this number ...

Spire.AI Knowra delivers knowledge-graph-driven context intelligence, turning fragmented enterprise data, systems, and AI into decision-ready outcomes. Unlike agent platforms or AI models that ...

Your brain could be gently coaxed into working on complex problems while you sleep, making you better able to tackle them the next day. Now, Karen Konkoly at Northwestern University in Illinois and ...