Microring Resonator-based Photonic Reservoir Computing

Bernard Jonathan Giron Castro; Christophe Peucheret; Francesco Da Ros

doi:10.1109/ICTON62926.2024.10648245

Microring Resonator-based Photonic Reservoir Computing

Bernard Jonathan Giron Castro, Christophe Peucheret, Francesco Da Ros

Université de Rennes

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

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Abstract

Reservoir computing is a recurrent computing architecture particularly suited for implementation on photonic hardware, especially in its time-delay (time-multiplexed) implementation. Here, we review our effort in timedelay reservoir computing based on a single nonlinear node consisting of a silicon microring resonator. We focus on relating the physical effects taking place in the resonator to the computing performance, as well as proposing extensions of the standard scheme to allow for increased computing efficiency, e.g. through task-multiplexing, or reduced footprint, e.g. through input-multiplexing

Original language	English
Title of host publication	Proceedings of 24^th International Conference on Transparent Optical Networks
Number of pages	4
Publisher	IEEE
Publication date	2024
ISBN (Print)	979-8-3503-7732-3
DOIs	https://doi.org/10.1109/ICTON62926.2024.10648245
Publication status	Published - 2024
Event	24^th International Conference on Transparent Optical Networks - Polytechnic University of Bari, Bari , Italy Duration: 14 Jul 2024 → 18 Jul 2024

Conference

Conference	24^th International Conference on Transparent Optical Networks
Location	Polytechnic University of Bari
Country/Territory	Italy
City	Bari
Period	14/07/2024 → 18/07/2024

Keywords

Micro-ring resonators
Reservoir computing
Optical computing

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10.1109/ICTON62926.2024.10648245

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title = "Microring Resonator-based Photonic Reservoir Computing",

abstract = "Reservoir computing is a recurrent computing architecture particularly suited for implementation on photonic hardware, especially in its time-delay (time-multiplexed) implementation. Here, we review our effort in timedelay reservoir computing based on a single nonlinear node consisting of a silicon microring resonator. We focus on relating the physical effects taking place in the resonator to the computing performance, as well as proposing extensions of the standard scheme to allow for increased computing efficiency, e.g. through task-multiplexing, or reduced footprint, e.g. through input-multiplexing",

keywords = "Micro-ring resonators, Reservoir computing, Optical computing",

author = "\{Giron Castro\}, \{Bernard Jonathan\} and Christophe Peucheret and \{Da Ros\}, Francesco",

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doi = "10.1109/ICTON62926.2024.10648245",

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booktitle = "Proceedings of 24th International Conference on Transparent Optical Networks",

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T1 - Microring Resonator-based Photonic Reservoir Computing

AU - Giron Castro, Bernard Jonathan

AU - Peucheret, Christophe

AU - Da Ros, Francesco

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N2 - Reservoir computing is a recurrent computing architecture particularly suited for implementation on photonic hardware, especially in its time-delay (time-multiplexed) implementation. Here, we review our effort in timedelay reservoir computing based on a single nonlinear node consisting of a silicon microring resonator. We focus on relating the physical effects taking place in the resonator to the computing performance, as well as proposing extensions of the standard scheme to allow for increased computing efficiency, e.g. through task-multiplexing, or reduced footprint, e.g. through input-multiplexing

AB - Reservoir computing is a recurrent computing architecture particularly suited for implementation on photonic hardware, especially in its time-delay (time-multiplexed) implementation. Here, we review our effort in timedelay reservoir computing based on a single nonlinear node consisting of a silicon microring resonator. We focus on relating the physical effects taking place in the resonator to the computing performance, as well as proposing extensions of the standard scheme to allow for increased computing efficiency, e.g. through task-multiplexing, or reduced footprint, e.g. through input-multiplexing

KW - Micro-ring resonators

KW - Reservoir computing

KW - Optical computing

U2 - 10.1109/ICTON62926.2024.10648245

DO - 10.1109/ICTON62926.2024.10648245

M3 - Article in proceedings

SN - 979-8-3503-7732-3

BT - Proceedings of 24th International Conference on Transparent Optical Networks

PB - IEEE

T2 - 24<sup>th</sup> International Conference on Transparent Optical Networks

Y2 - 14 July 2024 through 18 July 2024

ER -

Microring Resonator-based Photonic Reservoir Computing

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