Encryption systems rely on “random” numbers, but conventional computers can’t generate them perfectly. New research shows that quantum physics can.

In times past, when we wanted to know which team would win the World Cup, we had to turn to seers with crystal balls, use divination via tea leaves, or hope for Paul the Octopus to tell us what would ...

Modern encryption relies on mathematical assumptions that quantum computers may soon render obsolete. This technological shift creates new ...

Studying physics can be very useful—even when it comes to machine learning. A digital "super-brain" with built-in knowledge ...

With $500 million in funding and a reported $2.5 billion valuation, Flourish wants to reinvent AI by putting real neurons ...

As threats evolve faster, protecting security algorithms from design through manufacturing and across the supply chain is ...

Quantum computing, once only a theoretical possibility, promises to deliver faster, more energy-efficient computers—but only ...

ALS causes progressive muscle weakness, leading to loss of independent speech and communication. A clinical trial in the Netherlands will test a brain implant to restore communication for ALS patients ...

Spain launches its third quantum supercomputer at the Barcelona Supercomputing Centre, advancing AI, climate research and medical innovation across Europe.

Random number generators have been around for ages, but they often have subtle imperfections that cause patterns to emerge.

It’s a weird time to be studying computer science. Recent grads have a higher unemployment rate than those in just about every other major—yes, even philosophy. The internet is littered with rants ...

Quantum computing is emerging as a powerful complement to CPUs and GPUs, with advances in hybrid systems, error correction and exascale integration.