Microsoft and Ninja Theory are making games to fight mental illness

In 2015, Ninja Theory released Hellblade: Senua's Sacrifice, a journey through the mind of the Celtic warrior Senua as she faced anxiety, depression, hallucinations and delusions. The Microsoft-owned studio took careful steps to respect people suffer...

Eurasian ancestors used Egypt to leave Africa


Study shows that Egypt was ancient route out of Africa and into Eurasia for many non-African populations. Recent study indicates former theories were not accurate.Lead author Luca Pagani and co-...

Stephen Hawking gives Hope to 1D Fans over Zayn Malik


On Saturday night the legendary physicist Stephen Hawking spoke at the Sydney Opera House through a hologram from the Cambridge University in UK. Hawking appeared on the stage as a 3D hologram and...

Eddie Redmayne returns Home after winning Best Actor Oscar


In case you were living under a rock you will not be aware that Eddie Redmayne won an Oscar for the Best Actor in a Leading Role on Sunday night at the 87th Academy Awards for his role of Steven...

Cambridge May Reject Too Generous donation in Honour of Stephen Hawking


An American philanthropist’s $6-million (£3.63m) donation in honour of Stephen Hawking is in danger of being rejected by Cambridge University because it is too generous. The Avery-tsui Foundation...

Phase change memory breakthrough could lead to gigahertz-plus data transfers, make SSDs seem pokey

Numonyx phase change memory

Often considered the eventual successor to flash, phase change memory has had a tough time getting to the point where it would truly take over; when it takes longer to write data than conventional RAM, there's clearly a roadblock. The University of Cambridge has the potential cure through a constant-power trick that primes the needed hybrid of germanium, antimony and tellurium so that it crystalizes much faster, committing data to memory at an equally speedy rate. Sending a steady, weak electric field through the substance lets a write operation go through in just 500 picoseconds; that's 10 times faster than an earlier development without the antimony or continuous power. Researchers think it could lead to permanent storage that runs at refresh rates of a gigahertz or more. In other words, the kinds of responsiveness that would make solid-state drives break out in a sweat. Any practical use is still some distance off, although avid phase change memory producers like Micron are no doubt champing at the bit for any upgrade they can get.

Phase change memory breakthrough could lead to gigahertz-plus data transfers, make SSDs seem pokey originally appeared on Engadget on Sat, 23 Jun 2012 12:19:00 EDT. Please see our terms for use of feeds.

Permalink Ars Technica  |  sourceScience  | Email this | Comments