Ultra-energy-efficient magnetic memory by controlling the shapes of atoms
A research group led by Osaka University discovered a new principle to realize ultra-energy-efficient magnetic memory by electrically controlling the shapes of atoms.
A research group led by Osaka University discovered a new principle to realize ultra-energy-efficient magnetic memory by electrically controlling the shapes of atoms.
General Physics
Oct 3, 2017
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6
MIPT researchers teamed up with collaborators for a successful demonstration of magnetoelectric random access memory (MELRAM). A transition to magnetoelectric memory could enable substantial energy savings, as well as the ...
General Physics
Aug 23, 2017
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45
Today almost all information stored on hard disc drives or cloud servers is recorded in magnetic media, because it is non-volatile (i.e. it retains the information when power is switched off) and cheap. For portable devices ...
General Physics
Aug 10, 2017
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272
Memory chips are among the most basic components in computers. The random access memory is where processors temporarily store their data, which is a crucial function. Researchers from Dresden and Basel have now managed to ...
General Physics
Jan 3, 2017
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39
At the 2016 IEEE International Electron Devices Meeting, in a special poster session on MRAM, world-leading research and innovation hub for nano-electronics and digital technology imec presented a 8nm p-MTJ device with 100 ...
Electronics & Semiconductors
Dec 7, 2016
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5
According to current estimates, dozens of zettabytes of information will be stored electronically by 2020, which will rely on physical principles that facilitate the use of single atoms or molecules as basic memory cells. ...
Optics & Photonics
Dec 1, 2016
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13
Toshiba Corporation continues to build on its commitment to promoting the Internet of Things and Big Data analysis with development of a Time Domain Neural Network (TDNN) that sues an extremely low power consumption neuromorphic ...
Hardware
Nov 7, 2016
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29
The growing field of spin electronics - spintronics - tells us that electrons spin like a top, carry angular momentum, and can be controlled as units of power, free of conventional electric current. Nonvolatile magnetic memory ...
General Physics
Sep 1, 2016
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0
Associate Professor Yang Hyunsoo from the National University of Singapore led a research team to successfully embed a powerful magnetic memory chip on a flexible plastic material. This malleable memory chip hails a breakthrough ...
Nanophysics
Jul 19, 2016
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24
Just as magnetic materials have opposing North and South poles, ferroelectric materials have opposing positive charges and negative charges that exhibit measurable differences in electric potential. Researchers at MIT and ...
Condensed Matter
Jul 15, 2016
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971