(PhysOrg.com) -- Scientists at Arizona State University have developed an elegant method for significantly improving the memory capacity of electronic chips.
Electronics & Semiconductors
Dec 21, 2009
3
0
(PhysOrg.com) -- Multiferroics are materials in which unique combinations of electric and magnetic properties can simultaneously coexist. They are potential cornerstones in future magnetic data storage and spintronic devices ...
General Physics
May 22, 2009
1
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A new approach to controlling magnetism in a microchip could open the doors to memory, computing, and sensing devices that consume drastically less power than existing versions. The approach could also overcome some of the ...
General Physics
Nov 12, 2018
2
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(PhysOrg.com) -- Researchers at North Carolina State University have developed a new approach to software development that will allow common computer programs to run up to 20 percent faster and possibly incorporate new security ...
Computer Sciences
Apr 5, 2010
15
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In today's computers, moving data to and from main memory consumes so much time and energy that microprocessors have their own small, high-speed memory banks, known as "caches," which store frequently used data. Traditionally, ...
Computer Sciences
Sep 13, 2013
1
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A Rice University laboratory pioneering memory devices that use cheap, plentiful silicon oxide to store data has pushed them a step further with chips that show the technology's practicality.
Nanophysics
Jul 9, 2013
2
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(Phys.org)—By using electric voltage instead of a flowing electric current, researchers from UCLA's Henry Samueli School of Engineering and Applied Science have made major improvements to an ultra-fast, high-capacity class ...
General Physics
Dec 14, 2012
10
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(PhysOrg.com) -- The Austrian research group led by physicist Rainer Blatt suggests a fundamentally novel architecture for quantum computation. They have experimentally demonstrated quantum antennae, which enable the exchange ...
Quantum Physics
Feb 23, 2011
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(PhysOrg.com) -- Toshiba announced today the first ever 128GB embedded flash memory chip using 32 nanometer processes. The entire design is less than 0.06 inches thick.
The heart's inner workings are mysterious, perhaps even more so with a new finding. Engineers at the University of Washington have discovered an electrical property in arteries not seen before in mammalian tissues.
General Physics
Jan 30, 2012
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