A new survey highlights a growing “clinical interpretation gap” as patients increasingly rely on digital tools to ...

In a new study, scientists successfully trained a brain organoid derived from mouse stem cells to solve an engineering benchmark known as the “cart-pole problem.” By applying weak or strong electric ...

For more than two millennia, mathematicians have produced a growing heap of pi equations in their ongoing search for methods to calculate pi faster and faster. The pile of equations has now grown ...

When a worker thread completes a task, it doesn't return a sprawling transcript of every failed attempt; it returns a compressed summary of the successful tool calls and conclusions.

A surprising lab discovery reveals a light-powered way to tweak complex drugs faster, cleaner, and later in development.

Drug discovery is like molecular Tetris. Chemists snap atoms together, adjusting the pieces until everything fits, and ...

APL is developing a comprehensive suite of capabilities to ensure that additively manufactured parts can perform predictably ...

Artificial intelligence is moving rapidly from research labs into the center of modern warfare, helping militaries analyze ...

Scientists at the University of Cambridge have developed a new way to alter complex drug molecules using light rather than toxic chemicals—a discovery that could accelerate and improve how medicines ...

The effects of spinal cord injuries are complex and multifaceted. People lose not only the ability to control the movement of their limbs, but also the ability to receive sensory feedback from them.

Thanks to the new approach, NS can respond more quickly and effectively to unexpected changes or disruptions in the timetable.

Cortical Labs is building two data centres that will house its neuron-filled chips. The technology is still in the very early stages of development ...