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Fully reconfigurable coherent optical vector–matrix multiplication

James Spall, Xianxin Guo, Thomas D. Barrett, A. I. Lvovsky

2020Optics Letters81 citationsDOIOpen Access PDF

Abstract

Optics is a promising platform in which to help realize the next generation of fast, parallel, and energy-efficient computation. We demonstrate a reconfigurable free-space optical multiplier that is capable of over 3000 computations in parallel, using spatial light modulators with a pixel resolution of only 340×340. This enables vector-matrix multiplication and parallel vector-vector multiplication with vector size of up to 56. Our design is, to the best of our knowledge, the first to simultaneously support optical implementation of reconfigurable, large-sized, and real-valued linear algebraic operations. Such an optical multiplier can serve as a building block of special-purpose optical processors such as optical neural networks and optical Ising machines.

Topics & Concepts

Optical computingMultiplier (economics)Multiplication (music)OpticsComputer scienceComputationBlock (permutation group theory)AdderOptical performance monitoringPixelOptical communicationMatrix multiplicationPhysicsImage resolutionElectronic engineeringSpatial light modulatorOptical add-drop multiplexerOptical cross-connectParallel processingBeam splitterOptical switchOptical engineeringOptical filterSignal processingOptical transistorImage processingAdaptive opticsNeural Networks and Reservoir ComputingPhotonic and Optical DevicesParallel Computing and Optimization Techniques
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