IEEE Journal of the Electron Devices Society (Jan 2019)

Skyrmion-Induced Memristive Magnetic Tunnel Junction for Ternary Neural Network

  • Biao Pan,
  • Deming Zhang,
  • Xueying Zhang,
  • Haotian Wang,
  • Jinyu Bai,
  • Jianlei Yang,
  • Youguang Zhang,
  • Wang Kang,
  • Weisheng Zhao

DOI
https://doi.org/10.1109/JEDS.2019.2913637
Journal volume & issue
Vol. 7
pp. 529 – 533

Abstract

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Novel skyrmion-magnetic tunnel junction (SK-MTJ) devices were investigated for the first time to implement the ternary neural networks (TNN). In the SK-MTJ, an extra magnetoresistance state beyond binary parallel and anti-parallel MTJ states was achieved by forming a skyrmion vortex structure in the free layer. Based on the SK-MTJ, we propose a synaptic architecture with bit-cell design of +1, 0, and -1 to replace the full precision floating point arithmetic with equivalent bit-wise multiplication operation. To explore the feasibility of the SK-MTJ-based synaptic devices for TNN application, circuitlevel simulations for image recognition task were conducted. The recognition rate can reach up to 99% with 5% device variation and an average power consumption of 29.23 μW.

Keywords