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Magnetic skyrmions for unconventional computing

Sai Li, Wang Kang, Xichao Zhang, Tianxiao Nie, Yan Zhou, Kang L. Wang, Weisheng Zhao

2020Materials Horizons141 citationsDOIOpen Access PDF

Abstract

Improvements in computing performance have significantly slowed down over the past few years owing to the intrinsic limitations of computing hardware. However, the demand for data computing has increased exponentially. To solve this problem, tremendous attention has been focused on the continuous scaling of Moore's law as well as the advanced non-von Neumann computing architecture. A rich variety of unconventional computing paradigms has been devised with the rapid development of nanoscale devices. Magnetic skyrmions, spin swirling quasiparticles, have been endowed with great expectations for unconventional computing due to their potential as the smallest information carriers by exploiting their physics and dynamics. In this paper, we provide an overview of the recent progress of skyrmion-based unconventional computing from a joint device-application perspective. This paper aims to build up a panoramic picture, analyze the remaining challenges, and most importantly to shed light on the outlook of skyrmion based unconventional computing for interdisciplinary researchers.

Topics & Concepts

Unconventional computingVariety (cybernetics)Von Neumann architectureScalingComputer scienceSkyrmionUnconventional oilReservoir computingPhysicsGrand ChallengesScaling lawSpin (aerodynamics)ZhàngComputational scienceSupercomputerEdge computingNanotechnologyDistributed computingNatural computingTheoretical computer scienceMagnetic fieldMagnetic properties of thin filmsTopological Materials and PhenomenaQuantum and electron transport phenomena
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