Imagine a smartphone you can roll up and slip into your shirt pocket. Or a tablet that can be folded like a newspaper and slipped in your back pocket. It’s an idea that’s been tossed around in science fiction for a years, but now it’s a small step closer to reality because researchers at Sun Yat-sen University in Guangzhou, China have developed the world’s first flexible silicon.
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The Intel Developer Forum is coming to an end, meaning its execs get to go wild and show some of the oddball concepts under way at the tech giant. These include a processor so efficient it can pull all the energy it needs to run from a glass of red wine.
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Not be outdone by Apple
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The hits keep coming from IDF. After showing off svelte new 14nm silicon built for laptops, CEO Brian Krzanich announced a brand new SoC series named Quark. It’s the smallest SoC the company has ever built, one-fifth the size of an Atom chip, and is built upon an open architecture meant so spur its use. Early on in his keynote, Krzanich said that Intel plans to “lead in every segment of computing,” and Quark is positioned to put Intel in wearables — and, in fact, he even showed off a prototype smartwatch platform Intel constructed to help drive wearable development. And, Intel President Renee James pointed out that Quark’s designed for use in integrated systems, so we’ll be seeing Quark in healthcare and municipal use cases, too. Unfortunately, no details about the new SoC’s capabilities or specs are yet available, but we can give you some shots of Intel’s wearable wristband prototype in our gallery below.%Gallery-slideshow83631%
Filed under: Intel
Silicon is great, but we’re tickling the edges of its speed limit. As a result, researchers at Oregon State University have been plugging away at a low-cost, faster alternative for the past three years: tiny quantum devices called metal-insulator-metal diodes, or MIM diodes for short. Silicon chips involve electrons traveling through a transistor, but MIM diodes send electrons “tunneling” through the insulator in a quantum manner, such that they appear “almost instantaneously” on the other side. The tech’s latest development doubles the insulator fun — transforming the MIM into a MIIM (pictured above) — giving the scientists another method for engineering quantum mechanical tunneling. With MIIMs, super fast transistor-less computers could be around the corner. The Oregon researchers aren’t bold enough to put a date on making any of this happen outside of the lab, but they promise entire new industries may “ultimately emerge” from their work, and we’re far too under-qualified to doubt them.
Source: Oregon State University
It might not just be your ears that are stuffed with wax for long—because researchers from the University of Michigan want to pack your phone full of the stuff, too.
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Graphene has the power to change computing forever by making the fastest transistors ever. In theory. We just haven’t figured out how yet. Sound familiar
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Bloomberg is reporting that Microsoft is planning to give its Surface RT tablet an overhaul using chips from Qualcomm.
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The Wall Street Journal is reporting that AMD is taking a leap into unknown waters, as it readies its first ever ARM chip.
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Imagine if silicon chips were smaller than a grain of sand and could be made using a laser printer: everything under the sun could be made unobtrusively smart. But that’s not science fiction, and you don’t have to imagine too hard—because researchers at Xerox’s Palo Alto Research Center have already done it. More »
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