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Updates in silicon and electronics technology.

Ed.: This is a special feature courtesy of Binghamton University.

IMEC and Intel researchers develop spintronic logic device. Spintronics is a budding path in the quest for a future beyond CMOS. Devices use much less power than their CMOS counterparts and keep their data unpowered. IMEC and Intel researchers have created a spintronic logic device that can be fully controlled with electric current rather than magnetic fields. An electron’s spin generates a magnetic moment, and when many electrons with identical spins are close together, their magnetic moments can align and join forces to form a larger magnetic field. Such a region is called a magnetic domain, and the boundaries between domains are called domain walls. A material can consist of many such domains and domain walls, assembled like a magnetized mosaic. (IEEC file #12091, Semiconductor Digest, 1/21/21)

Plasmonics: A new way to link processors with light. Plasmonic transceivers transfer large amounts of data between processors. Fiberoptic links are the main method of slinging data between computers in data centers. Silicon photonics components are large in comparison to their electronic counterparts because optical wavelengths are much larger than transistors and copper interconnects. University of Toronto and Arm researchers have developed new silicon transceiver components that rely on plasmonics instead of photonics. The results have transceivers capable of at least double the bandwidth, while consuming 33% of the energy and 20% of the area, and could be built atop the processor. (IEEC file #12097, IEEE Spectrum, 1/21/21)

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