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

Data science and machine learning algorithms can help us form probabilistic forecasts of things like sporting events.

With automated proof-checkers, a problem can be broken up into small chunks, solved bit-by-bit, then reassembled with ...

Pakistan has suddenly discovered AI. Every second billboard, workshop poster, WhatsApp group, and LinkedIn guru now says the ...

But on Wednesday—bah, there’s just something about Wednesday—you have to spend a sunny day indoors, reading technical affidavits on satellite TV bootloaders, electronic countermeasures, and smartcard ...

Which security products do the best job of keeping you and your devices safe? To find out, we put them through a series of ...

We have recently been made painfully aware of the rot that pervades the truck driver training industry. The Ontario Auditor ...

How the defining figure of the manosphere built a fortune—and became a political force—by systematically exploiting women.

The star is best known for singing the iconic theme tune.

Randomness forms a crucial backbone of modern society, where every encryption key, secure transaction and digital signature ...

Random number generators have been around for ages, but they often have subtle imperfections that cause patterns to emerge. And even powerful computers are saddled with this liability purely because ...

Physicists used quantum bits to achieve perfect randomness for the first time ever. The results of their research could ...