Researchers have created a 3D programmable device merging living neurons with flexible electronics, achieving high-efficiency pattern recognition.

From greedy shortcuts to dynamic programming guarantees, algorithm design techniques are the backbone of efficient problem-solving in computer science. Understanding when and how to apply each ...

Roaring over long distances is a key behavior of lions. They communicate within prides as well as with other animals using ...

This valuable study addressed a key question in epilepsy research: whether the recordings of very fast oscillations in the brain (>250Hz, fast ripples) reflect underlying pathology or might be a ...

Automation use in the warehouse continues to increase. By 2027, over 6% of warehouses worldwide will have implemented some ...

NPU-equipped MCUs open the door to optimized edge AI in systems ranging from wearable health monitors to physical AI in ...

For centuries, humans looked to seers and astrologers to determine fate. Today, we look to algorithms, and the loss of agency ...

Boston University researchers developed PhysMAP, an AI tool that identifies brain cell types from neural recordings. It ...

U.S. scientists have developed a method to forecast solar irradiance at any location using a single high-resolution ...

Networking technology giant Cisco Systems Inc. today introduced a new networking switch for quantum systems that routes ...

Princeton researchers have combined brain cells and advanced electronics into a single 3D device that can be programmed to recognize patterns using computational techniques. Past attempts at using ...