• DocumentCode
    703983
  • Title

    Spintronic devices as key elements for energy-efficient neuroinspired architectures

  • Author

    Locatelli, Nicolas ; Vincent, Adrien F. ; Mizrahi, Alice ; Friedman, Joseph S. ; Vodenicarevic, Damir ; Joo-Von Kim ; Klein, Jacques-Olivier ; Weisheng Zhao ; Grollier, Julie ; Querlioz, Damien

  • Author_Institution
    Inst. d´Electron. Fondamentale, Univ. Paris-Sud, Orsay, France
  • fYear
    2015
  • fDate
    9-13 March 2015
  • Firstpage
    994
  • Lastpage
    999
  • Abstract
    Processing the current deluge of data using conventional CMOS architectures requires a tremendous amount of energy, as it is inefficient for tasks such as data mining, recognition and synthesis. Alternative models of computation based on neuroinspiration can prove much more efficient for these kinds of tasks, but do not map ideally to traditional CMOS. Spintronics, by contrast, can bring features such as embedded nonvolatile memory and stochastic and memristive behavior, which, when associated with CMOS, can be key enablers for neuroinspired computing. In this paper, we explore different works that go in this direction. First, we illustrate how recent developments in embedded nonvolatile memory based on magnetic tunnel junctions (MTJs) can provide the large amount of nonvolatile memory required in neuro-inspired designs while avoiding Von Neumann bottleneck. Second, we show that recently developed spintronic memristors can implement artificial synapses for neuromorphic systems. With a more groundbreaking design, we show how the probabilistic writing of single MTJ bits can efficiently replace multi-level weighting for some classes of neuroinspired architectures. Finally, we show that a special class of MTJs can exhibit the phenomenon of stochastic resonance, a strategy used in biological systems to detect weak signals. These results suggest that the impact of spintronics extends beyond the traditional standalone and embedded memory markets.
  • Keywords
    CMOS memory circuits; circuit resonance; embedded systems; magnetic tunnelling; magnetoelectronics; memristors; random-access storage; CMOS; MTJ; artificial synapses; biological systems; embedded nonvolatile memory; energy efficient neuroinspired architecture; magnetic tunnel junction; neuroinspired design; neuromorphic systems; nonvolatile memory; spintronic device; spintronic memristors; stochastic resonance; CMOS integrated circuits; Magnetic tunneling; Magnetoelectronics; Neurons; Nonvolatile memory; Stochastic processes; Switches;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Design, Automation & Test in Europe Conference & Exhibition (DATE), 2015
  • Conference_Location
    Grenoble
  • Print_ISBN
    978-3-9815-3704-8
  • Type

    conf

  • Filename
    7092535