Prospects and applications of photonic neural networks

Chaoran Huang; Volker J. Sorger; Mario Miscuglio; Mohammed Al-Qadasi; Avilash Mukherjee; Lutz Lampe; Mitchell Nichols; Alexander N. Tait; Thomas Ferreira de Lima; Bicky A. Marquez; Jiahui Wang; Lukas Chrostowski; Mable P. Fok; Daniel Brunner; Shanhui Fan; Sudip Shekhar; Paul R. Prucnal; Bhavin J. Shastri

doi:10.1080/23746149.2021.1981155

Advances in Physics: X (Jan 2022)

Prospects and applications of photonic neural networks

Chaoran Huang,
Volker J. Sorger,
Mario Miscuglio,
Mohammed Al-Qadasi,
Avilash Mukherjee,
Lutz Lampe,
Mitchell Nichols,
Alexander N. Tait,
Thomas Ferreira de Lima,
Bicky A. Marquez,
Jiahui Wang,
Lukas Chrostowski,
Mable P. Fok,
Daniel Brunner,
Shanhui Fan,
Sudip Shekhar,
Paul R. Prucnal,
Bhavin J. Shastri

Affiliations

Chaoran Huang: Princeton University
Volker J. Sorger: The George Washington University
Mario Miscuglio: The George Washington University
Mohammed Al-Qadasi: The University of British Columbia
Avilash Mukherjee: The University of British Columbia
Lutz Lampe: The University of British Columbia
Mitchell Nichols: The University of British Columbia
Alexander N. Tait: National Institute of Standards and Technology
Thomas Ferreira de Lima: Princeton University
Bicky A. Marquez: Queen’s University
Jiahui Wang: Stanford University
Lukas Chrostowski: The University of British Columbia
Mable P. Fok: University of Georgia
Daniel Brunner: Institut FEMTO-ST, Université Bourgogne-Franche-Comté CNRS UMR
Shanhui Fan: Stanford University
Sudip Shekhar: The University of British Columbia
Paul R. Prucnal: Princeton University
Bhavin J. Shastri: Queen’s University

DOI: https://doi.org/10.1080/23746149.2021.1981155
Journal volume & issue: Vol. 7, no. 1

Abstract

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Neural networks have enabled applications in artificial intelligence through machine learning, and neuromorphic computing. Software implementations of neural networks on conventional computers that have separate memory and processor (and that operate sequentially) are limited in speed and energy efficiency. Neuromorphic engineering aims to build processors in which hardware mimics neurons and synapses in the brain for distributed and parallel processing. Neuromorphic engineering enabled by photonics (optical physics) can offer sub-nanosecond latencies and high bandwidth with low energies to extend the domain of artificial intelligence and neuromorphic computing applications to machine learning acceleration, nonlinear programming, intelligent signal processing, etc. Photonic neural networks have been demonstrated on integrated platforms and free-space optics depending on the class of applications being targeted. Here, we discuss the prospects and demonstrated applications of these photonic neural networks.

Published in Advances in Physics: X

ISSN: 2374-6149 (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Science: Physics
Website: https://www.tandfonline.com/journals/tapx

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