OpticalChip
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IBM's Holey Optochip transmits 1Tbps of data, is named awesomely
Be honest: was there any doubt whatsoever that something called a "Holey Optochip" would be anything short of mind-blowing? No. None. The whiz-kids over at IBM have somehow managed to transmit a staggering 1Tbps of data over a new optical chip, with the fresh prototype showing promise for ultra-high interconnect bandwidth to power future supercomputer and data center applications. For those who'd rather not deal with esoteric descriptions, that's around 500 HD movies being transferred each second, and it's enough to transfer the entire U.S. Library of Congress web archive in just 60 minutes. Needless to say, it's light pulses taking charge here, and researchers are currently hunting for ways to make use of optical signals within standard low-cost, high-volume chip manufacturing techniques. Getting the feeling that your own personal supercomputer is just a year or two away? Hate to burst your bubble, but IBM's been touting similar achievements since at least 2008. Actually, scratch that -- where there's hope, there's Holey.
Optical 'diode' lends hope to photonic computing, rayguns
The trouble with pesky Photon, at least as far as ultra-fast optical computing is concerned, is that he keeps coming back. If a data-carrying beam of light collides with reflections bouncing around between the components of a chip, it can suffer enough interference to make people yearn for the good old days of electrons. What's needed is the optical equivalent of a diode, which only allows light to pass one way, and that's exactly what researchers at Caltech and the University of California claim to have developed. As you'll see in the photo after the break, their metallic-silicon optical waveguide allows light to travel smoothly from left to right, but it breaks up and dissipates any photons traveling in the opposite direction. This is all good, because there's no point having futuristic 50Gbps optical interconnects if our CPUs lag behind. Light up the source link for a fuller explanation.
