fiberoptic
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$500 million underwater fiber network to link Asia, America
Unfortunately for most, traversing back and forth to Asia from America on a regular basis isn't exactly in the cards, but thanks to a $500 million project agreed upon by a 17-member telecommunications consortium, visiting via fiber will soon be a whole lot snappier. Telekom Malaysia, along with 16 other firms, have awarded a half billion dollar contract to Alcatel-Lucent and NEC to construct a 12,428-mile link between the west coast of America and Southeast Asia. The aptly-dubbed Asia-America Gateway will connect the western US with Malaysia, Singapore, Thailand, Brunei, Hong Kong, the Philippines, Guam, and Hawaii, while also offering "seamless interconnection" with Europe, Africa, and Australia. Moreover, the project is being designed to provide a "more secure link for traffic" across the seas, as it avoids the hazardous Pacific Ring in hopes of dodging massive internet outages due to unexpected earthquakes. Best of all, the wait time for the undersea cabling to make an impact is fairly reasonable, as users should see "faster and more reliable service" when it becomes operational in December of next year.[Via Physorg]
MIT researchers cram optical circuitry on a silicon chip
It looks like MIT is raising the bar yet again, as this time it's taking a break from crafting autonomous UAVs and stackable vehicles to cram optical circuitry on your everyday silicon chip. In an effort to "integrate the optical circuitry with electronic circuitry" on the same silicon wafer, researchers have devised a method which will harness the "enormous power of light waves in networks" while offering up a way to manufacture the circuitry cheaply. The crew has reportedly already been playing around with a working prototype, and suggests that it could eventually "redefine how optical networks are built." Moreover, the development addresses the existing "signal weakening over distance" issue in fiber optic transmissions by "splitting the light beams as they pass through a circuit, rotating one of the polarized beams, and finally rejoining them on their way out of the circuit, which retains the signals' strength." While there's no projection of when this technology could actually hit the mainstream, anything that makes it less expensive to rollout FiOS (and similar networks) to more people most definitely has our vote.
Neues Licht offers up fiber optic lighting on UFO Chandelier
We've seen plenty of space-aged (and cosmically-influenced) lighting systems in our day, but a newfangled German operation is melding high-class style, energy efficiency, and whole lot of pizazz into one nifty lighting structure. Neues Licht's UFO Chandelier rocks strands of fiber optics arranged above a floating ring, which give off a colored glow depending on whatever light source you attach to it. The designer, Simon Bruenner, describes his innovative chandelier as "simplicity from another planet," and describes that its origin of light can be from the sun or in a different room altogether. Furthermore, the fixture is reportedly waterproof, making it feasible for use in your new spa / pool room, and considering the potential energy savings from pumping in sunlight, you shouldn't have too much trouble convincing your SO that this thing's worthwhile. Simon's masterpiece was on display lighting things up at last week's Cologne Furniture Fair, and while there's no set date for mass production, we can't imagine Lowe's not jumping all over this one sometime soon.[Via Inhabitat]
Siemens AG breaks network speed record
Data speed records are falling left and right these days but there doesn't seem to be any signs of the madness letting up, with Reuters reporting today that Siemens AG has joined the party, smashing the previous record for transmission rates over a single fiber channel using "exclusively electrical means." They maxed out at a speed of 107 gigibits per second before running out of steam -- that's reportedly a full 2.5 times faster than the previous record for a single fiber channel. What's more, they did it outside of the laboratory, using an existing a 100 mile-long fiber optic route in the U.S. According to Siemens, this record is particularly significant as it will reduce the need to split signals into a number lower data-rate channels in order to avoid bottlenecks, ultimately resulting in networks that are both faster and cheaper for customers. It looks like we'll still have to wait a while before we can take advantage of the speedy new technology, however, with the first prototype products based on it still a few years away.[Via Reuters/Yahoo News]
NTT sets new data transmission record of 14 terabits per second
Remember back in May when we told you about the latest data transmission record of 2.56 terabits per second? Well, consider that yesterday's technology, because Nippon Telegraph and Telephone (NTT) just decimated it by announcing a successful new bandwidth record of 14 terabits per second over 160 kilometers (nearly 100 miles) of fiber optic cable. We still think that someone needs to do some research on why Japan always gets the coolest stuff fastest -- not to mention how they get the fastest stuff first.
