Students should be able to: a) develop basic computational thinking b) explain and use data types c) appreciate the notion of algorithms d) develop a basic understanding of computer systems- ...

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

Harvard researchers found that adding a little randomness to robot movements can prevent gridlock and dramatically boost ...

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 ...

That federal purse has long been the primary source of funding for research and development in the U.S., growing from $21.3 ...

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

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

Even the most modern random number generators do not produce perfectly random numbers, which can be a problem for cryptographic applications. ETH Zurich researchers use entangled superconducting ...

Physicists used quantum bits to achieve perfect randomness for the first time ever. The results of their research could strengthen cryptography and other security systems.

With a course offered this past spring semester, professors and students alike have begun grappling with the role automated ...

In the case of “Wake Up!”, it only needs 16 bytes to produce a Matrix-inspired visualization with an accompanying soundtrack. The program is what’s called an “intro”—a short, size-restricted program ...