Micro-Ring-Resonator Based Passive Photonic Spike-Time-Dependent-Plasticity Scheme for Unsupervised Learning in Optical Neural Networks

Charis Mesaritakis; Menelaos Skontranis; George Sarantoglou; Adonis Bogris

doi:10.1364/OFC.2020.T4C.2

Optical Fiber Communication Conference (OFC) 2020
OSA Technical Digest (Optica Publishing Group, 2020),
paper T4C.2
•https://doi.org/10.1364/OFC.2020.T4C.2

Micro-Ring-Resonator Based Passive Photonic Spike-Time-Dependent-Plasticity Scheme for Unsupervised Learning in Optical Neural Networks

Charis Mesaritakis, Menelaos Skontranis, George Sarantoglou, and Adonis Bogris

Optical Fiber Communication Conference 2020

San Diego, California United States
8–12 March 2020
ISBN: 978-1-943580-71-2

From the session
Neuromorphic II: Entire Aspect (T4C)

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C. Mesaritakis, M. Skontranis, G. Sarantoglou, and A. Bogris, "Micro-Ring-Resonator Based Passive Photonic Spike-Time-Dependent-Plasticity Scheme for Unsupervised Learning in Optical Neural Networks," in Optical Fiber Communication Conference (OFC) 2020, OSA Technical Digest (Optica Publishing Group, 2020), paper T4C.2.

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Abstract

In this work, a photonic spike-time-dependent-plasticity scheme based on high-order passive ring resonators is demonstrated. Numerical simulations confirmed the validity of the approach assuming post and pre-synaptic quantum dot laser neurons.

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