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Neuromorphic computing with nanoscale spintronic oscillators. | LitMetric

AI Article Synopsis

  • Neurons in the brain function as nonlinear oscillators for processing information, inspiring advances in neuromorphic computing, which aims to replicate this behavior using nanoscale oscillators.
  • Creating a chip with 10 oscillators in a small area requires each oscillator to be under one micrometer, but nanoscale devices face challenges like noise and instability that hinder reliable data processing.
  • A successful experiment demonstrated that a nanoscale spintronic oscillator can recognize spoken digits with accuracy comparable to advanced neural networks, suggesting a new path for efficient, low-power on-chip computations.

Article Abstract

Neurons in the brain behave as nonlinear oscillators, which develop rhythmic activity and interact to process information. Taking inspiration from this behaviour to realize high-density, low-power neuromorphic computing will require very large numbers of nanoscale nonlinear oscillators. A simple estimation indicates that to fit 10 oscillators organized in a two-dimensional array inside a chip the size of a thumb, the lateral dimension of each oscillator must be smaller than one micrometre. However, nanoscale devices tend to be noisy and to lack the stability that is required to process data in a reliable way. For this reason, despite multiple theoretical proposals and several candidates, including memristive and superconducting oscillators, a proof of concept of neuromorphic computing using nanoscale oscillators has yet to be demonstrated. Here we show experimentally that a nanoscale spintronic oscillator (a magnetic tunnel junction) can be used to achieve spoken-digit recognition with an accuracy similar to that of state-of-the-art neural networks. We also determine the regime of magnetization dynamics that leads to the greatest performance. These results, combined with the ability of the spintronic oscillators to interact with each other, and their long lifetime and low energy consumption, open up a path to fast, parallel, on-chip computation based on networks of oscillators.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5575904PMC
http://dx.doi.org/10.1038/nature23011DOI Listing

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