A Nature paper describes an innovative analog in-memory computing (IMC) architecture tailored for the attention mechanism in ...

Two DC stages DC-to-DC conversion typically starts with 48 V (or sometimes 54 V), and first drops it to 12 or 6 V. Then it is ...

Discover how neuroscience is driving advances in robotics, enabling machines to learn, adapt, and move more like biological systems.

Many applications—from drug discovery and diagnostics to cell engineering and gene modulation—require delivering biomolecules ...

DNA computers can use biological material to perform mathematical functions and store information, but their power sources have been fragile. Researchers now say they’ve developed a reliable source: ...

University of Warwick research demonstrates how to engineer "cell factories" that last longer and produce more chemicals, ...

Understanding the neural mechanisms underlying associative threat learning is essential for advancing behavioral models of threat and adaptation. We investigated distinct activation patterns across ...

University of Warwick research demonstrates how to engineer ‘cell factories’ that last longer and produce more chemicals, without needing antibiotics or complex engineering methods, paving the way for ...

UMass Amherst engineers create low-voltage artificial neurons using bacterial nanowires, promising efficient bio-inspired ...

The Fête de la Science 2025 makes its comeback from October 3 to 13 everywhere, including in the Yvelines, with Port-Marly ...

The coming decade will not be defined by robots replacing humans, but by humans and robots collaborating side by side. From ...