So this isn't really exclusive to Crysis news, but the guy is playing Crysis on it. Alienware came out with a really cool curved DLP display recently, and guess what they were using Crysis to show it off! Check it out below.
Here is what engadget.com had to say about the new technology:
"Don't get all frothed up quite yet because it's still only a prototype, but this sweet doublewide curved DLP display with LED illumination from Alienware will reportedly be available in the second half of '08. The curvature of the 2880 x 900 rez screen mimics peripheral vision, and in action the performance seemed pretty flawless to our Crysis-dazzled eyes (official specs report less than .02-millisecond response time). We did notice three faint vertical dividing lines that appeared to indicate four sub-panels making up this screen, but we may be willing to suspend disbelief in exchange for the potential of indulgent wrap-around immersion. There's not even an inkling of an MSRP on this thing yet, but you know we're gonna be keeping our eyes on this sucker for ya."Video Footage:
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Scientists Find New Memory That Prevents Bootups
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The finding proves what until now had only been theory -- but could save millions from the tedium of waiting for a computer to find its "place," the researchers said.
Basic electronics theory teaches that there are three fundamental elements of a passive circuit -- resistors, capacitors and inductors when the power is turned off, and must be accessed from the hard drive when the computer goes back on.
But a computer that incorporates this new kind of memory circuit would never lose it place, even when the power is turned off.
"If you turn on your computer it will come up instantly where it was when you turned it off. That is a very interesting potential application, and one that is very realistic," Williams said.
But he said understanding this new circuit element could be critical as companies attempt to build ever smaller devices.
"It's essential that people understand this to be able to go further into the world of nanoelectronics," referring to electronics on the nano scale -- objects tens of thousands of times smaller than the width of a human hair.
"It turns out that memristance, this property, gets more important as the device gets smaller. That is another major reason it took so long to find," Williams said."