With today's data rates of only a few hundred megabytes per second, access to digital information remains relatively slow.
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Interesting Engineering on MSNVortion: New magnetic state can mimic biological synapses, improve data storageAccording to estimates, 2.5 quintillion bytes of data is generated every day, indicating the need for highly efficient data ...
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StudyFinds on MSNCould this new magnetic state power the future of AI and big data?In a paper published in Nature Communications, researchers from The Autonomous University of Barcelona have unveiled a novel ...
Scientists have unlocked a way to read magnetic orientation at record-breaking speeds using terahertz radiation. Modern hard ...
[smbaker] is placing his magnetic bubble memory module to work in a Heathkit H8, an Intel 8080-based microcomputer from the the late 70s. The video goes into great detail on the theory of how thes ...
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We're getting achingly closer to SOT-MRAM; the memory that could one day replace DRAM and NAND, but I can't see it happening soonThe advancement, based on Spin-Orbit-Torque (SOT) Magnetic Random-Access Memory (MRAM), could potentially offer improved efficiency for a range of smart devices, from smartphones to supercomputers.
Beyond memory, antiferromagnets also have potential in computing, particularly in “magnetic neural networks.” Special ...
Magnetic domains retain their magnetic memory due to communication between groups of neighbouring magnetised atoms. Single-atom or single-molecule magnets on the other hand do not require this ...
Or maybe there’s a spot in the disk that is going bad, and the stronger magnetic field is required to reset the floppy’s field. Let us know your guess, or if you know the answer, fill us in!
To realize ultra-high-speed recording devices in the future, STRL is conducting research on magnetic nanowire memory. Inside the magnetic nanowires, there are local fluctuations in the magnetic ...
Developed by RIKEN physicists, this technique could make memory devices less corruptible ... based on ferromagnets—materials in which the magnetic dipoles, or spins, associated with each ...
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