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Paper detail

Photonic reservoir computer based on frequency multiplexing

Reservoir computing is a brain inspired approach for information processing, well suited to analogue implementations. We report a photonic implementation of a reservoir computer that exploits frequency domain multiplexing to encode neuron states. The system processes 25 comb lines simultaneously (i.e. 25 neurons), at a rate of 20 MHz. We illustrate performances on two standard benchmark tasks: channel equalization and time series forecasting. We also demonstrate that frequency multiplexing allows output weights to be implemented in the optical domain, through optical attenuation. We discuss the perspectives for high speed high performance low footprint implementations.

preprint2022arXivOpen access
Lorenz ButschekAkram AkroutEvangelia DimitriadouAlessandro LupoMarc HaeltermanSerge Massar
Neural and Evolutionary Computingphysics.optics
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Lorenz ButschekAkram AkroutEvangelia DimitriadouAlessandro LupoMarc HaeltermanSerge Massar

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