research-article

Pairing of microring-based silicon photonic transceivers for tuning power optimization

Authors:

M. Ashkan Seyedi,

Marco Fiorentino,

Raymond G. Beausoleil,

Kwang-Ting ChengAuthors Info & Claims

ASPDAC '18: Proceedings of the 23rd Asia and South Pacific Design Automation Conference

Pages 135 - 140

Published: 22 January 2018 Publication History

Abstract

Nanophotonic interconnects have started replacing traditional electrical interconnects in data centers for rack-level communications and demonstrated great potential at board and chip levels. However, microring-based silicon photonic transceivers, an important element for nanophotonic interconnects, are very sensitive to fabrication process variations, and require power hungry wavelength tuning. In this paper, we apply efficient optimization algorithms to mix-and-match a pool of fabricated transceiver devices with the objective of minimizing the overall tuning power. This optimal pairing technique, applied during the production stage, reduce power consumption for wavelength tuning. For two sets of fabricated devices, the pairs of transceivers assigned by the optimal pairing technique reduce the tuning power by 6% to 60%. We further evaluate the method on synthetic data sets that are generated from a well-established process variation model. Our experimental results show that even greater power saving can be achieved when more fabricated devices are available for pairing and the runtime of the optimization algorithm is quite scalable.

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Cited By

Wang YSeyedi MHulme JFiorentino MBeausoleil RCheng KShibuya T(2019)Bidirectional tuning of microring-based silicon photonic transceivers for optimal energy efficiencyProceedings of the 24th Asia and South Pacific Design Automation Conference10.1145/3287624.3287649(370-375)Online publication date: 21-Jan-2019
https://dl.acm.org/doi/10.1145/3287624.3287649

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Published In

cover image ACM Conferences

ASPDAC '18: Proceedings of the 23rd Asia and South Pacific Design Automation Conference

January 2018

774 pages

General Chair:
Youngsoo Shin
KAIST

Sponsors

IEEE Circuits and Systems Society
SIGDA: ACM Special Interest Group on Design Automation
IEEE Council on Electronic Design Automation (CEDA)

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IEEE Press

Publication History

Published: 22 January 2018

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ASPDAC '18

Sponsor:

SIGDA

ASPDAC '18: 23rd Asia and South Pacific Design Automation Conference

January 22 - 25, 2018

Jeju, Republic of Korea

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Overall Acceptance Rate 466 of 1,454 submissions, 32%

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Cited By

Wang YSeyedi MHulme JFiorentino MBeausoleil RCheng KShibuya T(2019)Bidirectional tuning of microring-based silicon photonic transceivers for optimal energy efficiencyProceedings of the 24th Asia and South Pacific Design Automation Conference10.1145/3287624.3287649(370-375)Online publication date: 21-Jan-2019
https://dl.acm.org/doi/10.1145/3287624.3287649

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