Frontiers in Neuroscience (Nov 2021)

Toward Learning in Neuromorphic Circuits Based on Quantum Phase Slip Junctions

  • Ran Cheng,
  • Ran Cheng,
  • Uday S. Goteti,
  • Harrison Walker,
  • Harrison Walker,
  • Keith M. Krause,
  • Keith M. Krause,
  • Luke Oeding,
  • Michael C. Hamilton,
  • Michael C. Hamilton

DOI
https://doi.org/10.3389/fnins.2021.765883
Journal volume & issue
Vol. 15

Abstract

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We explore the use of superconducting quantum phase slip junctions (QPSJs), an electromagnetic dual to Josephson Junctions (JJs), in neuromorphic circuits. These small circuits could serve as the building blocks of neuromorphic circuits for machine learning applications because they exhibit desirable properties such as inherent ultra-low energy per operation, high speed, dense integration, negligible loss, and natural spiking responses. In addition, they have a relatively straight-forward micro/nano fabrication, which shows promise for implementation of an enormous number of lossless interconnections that are required to realize complex neuromorphic systems. We simulate QPSJ-only, as well as hybrid QPSJ + JJ circuits for application in neuromorphic circuits including artificial synapses and neurons, as well as fan-in and fan-out circuits. We also design and simulate learning circuits, where a simplified spike timing dependent plasticity rule is realized to provide potential learning mechanisms. We also take an alternative approach, which shows potential to overcome some of the expected challenges of QPSJ-based neuromorphic circuits, via QPSJ-based charge islands coupled together to generate non-linear charge dynamics that result in a large number of programmable weights or non-volatile memory states. Notably, we show that these weights are a function of the timing and frequency of the input spiking signals and can be programmed using a small number of DC voltage bias signals, therefore exhibiting spike-timing and rate dependent plasticity, which are mechanisms to realize learning in neuromorphic circuits.

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