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Parallel and deep reservoir computing using semiconductor lasers with optical feedback.

Hiroshi Hasegawa1, Kazutaka Kanno1, Atsushi Uchida1

  • 1Department of Information and Computer Sciences, Saitama University, 255 Shimo-okubo, Sakura-ku, Saitama City, Saitama 338-8570, Japan.

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Summary
This summary is machine-generated.

Multiple photonic reservoirs improve machine learning tasks. Hybrid configurations outperform single, parallel, and deep setups for chaotic prediction and channel equalization, boosting edge computing potential.

Keywords:
deep learningmachine learningsemiconductor lasertime delay

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Area of Science:

  • Optics and Photonics
  • Machine Learning
  • Nonlinear Dynamics

Background:

  • Photonic reservoir computing (PRC) offers efficient machine learning solutions.
  • Limited training of connection weights in single reservoirs restricts performance.
  • Multiple reservoirs can overcome these limitations.

Purpose of the Study:

  • Investigate parallel and deep configurations of delay-based all-optical PRC.
  • Propose a hybrid configuration combining parallel and deep approaches.
  • Enhance PRC performance for complex computational tasks.

Main Methods:

  • Utilized semiconductor lasers with optical feedback for all-optical PRC.
  • Implemented parallel and deep reservoir configurations.
  • Evaluated performance on chaotic time-series prediction, nonlinear channel equalization, and memory capacity tasks.

Main Results:

  • Deep reservoirs excel at chaotic time-series prediction.
  • Parallel reservoirs are optimal for nonlinear channel equalization.
  • Hybrid reservoirs demonstrated superior performance across all tested tasks.

Conclusions:

  • Multiple reservoir configurations significantly improve PRC performance.
  • Hybrid configurations offer the most robust and versatile solution.
  • Optimized multiple reservoirs show promise for high-performance edge computing applications.