An 800 Gb/s, 16 channel, VCSEL-based, co-packaged transceiver with fast laser sparing

D. Kuchta; M. Meghelli; P. Pepeljugoski; L. Schares; M. Schultz; P. Maniotis; P. Fortier; E. Tucotte; C. Bureau; M. Pion; Y. Cossette; G. Jutras; B. Sow; B. Parikh; S. Ostrander; S. Li; D. Becker; F. Gholami; H. Bagheri; M. Kapfhammer; H. Toy; F. Flens; G. Light; B. Wang

European Conference on Optical Communication (ECOC) 2022
Technical Digest Series (Optica Publishing Group, 2022),
paper Tu1F.2

An 800 Gb/s, 16 channel, VCSEL-based, co-packaged transceiver with fast laser sparing

D. Kuchta, M. Meghelli, P. Pepeljugoski, L. Schares, M. Schultz, P. Maniotis, P. Fortier, E. Tucotte, C. Bureau, M. Pion, Y. Cossette, G. Jutras, B. Sow, B. Parikh, S. Ostrander, S. Li, D. Becker, F. Gholami, H. Bagheri, M. Kapfhammer, H. Toy, F. Flens, G. Light, and B. Wang

European Conference and Exhibition on Optical Communication 2022

Basel Switzerland
18–22 September 2022
ISBN: 978-1-957171-15-9

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Co-Packaging and Large Photonic Circuits (Tu1F)

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D. Kuchta, M. Meghelli, P. Pepeljugoski, L. Schares, M. Schultz, P. Maniotis, P. Fortier, E. Tucotte, C. Bureau, M. Pion, Y. Cossette, G. Jutras, B. Sow, B. Parikh, S. Ostrander, S. Li, D. Becker, F. Gholami, H. Bagheri, M. Kapfhammer, H. Toy, F. Flens, G. Light, and B. Wang, "An 800 Gb/s, 16 channel, VCSEL-based, co-packaged transceiver with fast laser sparing," in European Conference on Optical Communication (ECOC) 2022, J. Leuthold, C. Harder, B. Offrein, and H. Limberger, eds., Technical Digest Series (Optica Publishing Group, 2022), paper Tu1F.2.

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Abstract

We report on high speed, low power, and sparing characteristics of the transmitter portion of an 800 Gb/s co-packaged transceiver using VCSELs and 2:1 sparing for improved reliability. The transmitter consumes 2.7 pJ/bit including the laser. The spare VCSEL can be enabled in < 100ns.

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