Asymmetrical performance of a laser-based reservoir computer with optoelectronic feedback

We numerically quantify the performance of a photonic reservoir computer based on a semiconductor laser subject to high-pass filtered optoelectronic feedback. We assess its memory capacity, computational ability, and performance in solving a multi-step prediction task. By analyzing the complex bifur...

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Bibliographic Details
Published in:Optics letters Vol. 45; no. 22; p. 6150
Main Authors: Dmitriev, P S, Kovalev, A V, Locquet, A, Rontani, D, Viktorov, E A
Format: Journal Article
Language:English
Published: 15.11.2020
ISSN:1539-4794, 1539-4794
Online Access:Get more information
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Summary:We numerically quantify the performance of a photonic reservoir computer based on a semiconductor laser subject to high-pass filtered optoelectronic feedback. We assess its memory capacity, computational ability, and performance in solving a multi-step prediction task. By analyzing the complex bifurcation landscape of the corresponding delay-differential equation model, we observe that optimal performance occurs at the edge of instability, at the onset of periodic regimes, and unveil a parity asymmetry in the performance with a slight advantage for positive over negative feedback.We numerically quantify the performance of a photonic reservoir computer based on a semiconductor laser subject to high-pass filtered optoelectronic feedback. We assess its memory capacity, computational ability, and performance in solving a multi-step prediction task. By analyzing the complex bifurcation landscape of the corresponding delay-differential equation model, we observe that optimal performance occurs at the edge of instability, at the onset of periodic regimes, and unveil a parity asymmetry in the performance with a slight advantage for positive over negative feedback.
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ISSN:1539-4794
1539-4794
DOI:10.1364/OL.405177