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An array of microresonators as a photonic extreme learning machine

Stefano Biasi, Riccardo Franchi, Lorenzo Cerini, Lorenzo Pavesi

2023APL Photonics29 citationsDOIOpen Access PDF

Abstract

Machine learning technologies have found fertile ground in optics due to their promising features based on speed and parallelism. Feed-forward neural networks are one of the most widely used machine learning algorithms due to their simplicity and universal approximation capability. However, the typical training procedure, where all weights are optimized, can be time and energy consuming. An alternative approach is the Extreme Learning Machine, a feed-forward neural network in which only the output weights are trained, while the internal connections are random. Here we present an experimental implementation of a photonic extreme learning machine (PELM) in an integrated silicon chip. The PELM is based on the processing of the image of the scattered light by an array of 18 gratings coupled to microresonators. Light propagation in the microresonator array is a linear process while light detection by the video camera is a nonlinear process. Training is done offline by analyzing the recorded scattered light image with a linear classifier. We provide a proof-of-concept demonstration of the PELM by solving both binary and analog tasks, and show how the performance depends on the number of microresonators used in the readout procedure.

Topics & Concepts

Computer scienceArtificial neural networkPhotonicsExtreme learning machineNonlinear systemProcess (computing)Artificial intelligenceBinary numberElectronic engineeringOpticsPhysicsMathematicsEngineeringOperating systemQuantum mechanicsArithmeticNeural Networks and Reservoir ComputingPhotonic and Optical DevicesAdvanced Memory and Neural Computing
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