Reservoir computing with the frequency, phase and amplitude of spin-torque nano-oscillators

Spin-torque nano-oscillators can emulate neurons at the nanoscale. Recent works show that the non-linearity of their oscillation amplitude can be leveraged to achieve waveform classification for an input signal encoded in the amplitude of the input voltage. Here we show that the frequency and the ph...

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Published in	arXiv.org
Main Authors	Marković, Danijela, Leroux, Nathan, Riou, Mathieu, Flavio Abreu Araujo, Torrejon, Jacob, Querlioz, Damien, Fukushima, Akio, Yuasa, Shinji, Trastoy, Juan, Bortolotti, Paolo, Grollier, Julie
Format	Paper Journal Article
Language	English
Published	Ithaca Cornell University Library, arXiv.org 01.11.2018
Subjects	Amplitudes Classification Coding Computation Decoding Linearity Nonlinearity Oscillators Physics - Applied Physics Physics - Computational Physics Physics - Mesoscale and Nanoscale Physics Torque Waveforms
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Abstract	Spin-torque nano-oscillators can emulate neurons at the nanoscale. Recent works show that the non-linearity of their oscillation amplitude can be leveraged to achieve waveform classification for an input signal encoded in the amplitude of the input voltage. Here we show that the frequency and the phase of the oscillator can also be used to recognize waveforms. For this purpose, we phase-lock the oscillator to the input waveform, which carries information in its modulated frequency. In this way we considerably decrease amplitude, phase and frequency noise. We show that this method allows classifying sine and square waveforms with an accuracy above 99% when decoding the output from the oscillator amplitude, phase or frequency. We find that recognition rates are directly related to the noise and non-linearity of each variable. These results prove that spin-torque nano-oscillators offer an interesting platform to implement different computing schemes leveraging their rich dynamical features.
AbstractList	Spin-torque nano-oscillators can emulate neurons at the nanoscale. Recent works show that the non-linearity of their oscillation amplitude can be leveraged to achieve waveform classification for an input signal encoded in the amplitude of the input voltage. Here we show that the frequency and the phase of the oscillator can also be used to recognize waveforms. For this purpose, we phase-lock the oscillator to the input waveform, which carries information in its modulated frequency. In this way we considerably decrease amplitude, phase and frequency noise. We show that this method allows classifying sine and square waveforms with an accuracy above 99% when decoding the output from the oscillator amplitude, phase or frequency. We find that recognition rates are directly related to the noise and non-linearity of each variable. These results prove that spin-torque nano-oscillators offer an interesting platform to implement different computing schemes leveraging their rich dynamical features. Spin-torque nano-oscillators can emulate neurons at the nanoscale. Recent works show that the non-linearity of their oscillation amplitude can be leveraged to achieve waveform classification for an input signal encoded in the amplitude of the input voltage. Here we show that the frequency and the phase of the oscillator can also be used to recognize waveforms. For this purpose, we phase-lock the oscillator to the input waveform, which carries information in its modulated frequency. In this way we considerably decrease amplitude, phase and frequency noise. We show that this method allows classifying sine and square waveforms with an accuracy above 99% when decoding the output from the oscillator amplitude, phase or frequency. We find that recognition rates are directly related to the noise and non-linearity of each variable. These results prove that spin-torque nano-oscillators offer an interesting platform to implement different computing schemes leveraging their rich dynamical features.
Author	Torrejon, Jacob Grollier, Julie Riou, Mathieu Leroux, Nathan Querlioz, Damien Bortolotti, Paolo Flavio Abreu Araujo Yuasa, Shinji Fukushima, Akio Trastoy, Juan Marković, Danijela
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BackLink	https://doi.org/10.48550/arXiv.1811.00309$$DView paper in arXiv https://doi.org/10.1063/1.5079305$$DView published paper (Access to full text may be restricted)
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Snippet	Spin-torque nano-oscillators can emulate neurons at the nanoscale. Recent works show that the non-linearity of their oscillation amplitude can be leveraged to... Spin-torque nano-oscillators can emulate neurons at the nanoscale. Recent works show that the non-linearity of their oscillation amplitude can be leveraged to...
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Title	Reservoir computing with the frequency, phase and amplitude of spin-torque nano-oscillators
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