Publication:

Integrated Photonics and Electronics for Optical Transceivers Supporting AI/ML Applications

Date

2025
Journal article
https://doi.org/10.1109/jstqe.2025.3539379
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dc.contributor.authorOssieur, Peter
dc.contributor.authorMoeneclaey, Bart
dc.contributor.authorCoudyzer, Gertjan
dc.contributor.authorLambrecht, Joris
dc.contributor.authorCraninckx, Jan
dc.contributor.authorMartens, Ewout
dc.contributor.authorVan Driessche, Joris
dc.contributor.authorBruynsteen, Cedric
dc.contributor.authorDe Busscher, Jonas
dc.contributor.authorDeclercq, Jakob
dc.contributor.authorGu, Ye
dc.contributor.authorNiu, Shengpu
dc.contributor.authorPannier, Tinus
dc.contributor.authorSingh, Nishant
dc.contributor.authorVan Severen, Lucas
dc.contributor.authorBogaert, Laurens
dc.contributor.authorMaes, Dennis
dc.contributor.authorVanackere, Tom
dc.contributor.authorVissers, Ewoud
dc.contributor.authorZhang, Jing
dc.date.accessioned2026-04-13T10:16:23Z
dc.date.available2026-04-13T10:16:23Z
dc.date.createdwos2026-02-23
dc.date.issued2025
dc.description.abstractThe recent proliferation of artificial intelligence and machine learning applications relying on large language models is fueling unprecedented demand for compute capacity. Associated with this is a need to scale capacities of short-reach optical transceivers towards multiplex Terabit/s, while maintaining integration density (frontpanel or beachfront density) and energy efficiency (pJ/bit). One option to scale transceiver capacity is to increase the bandwidth per lane from today's 200 G to 400 G or even higher: coherent transceiver technology is then expected to play an ever more important role. Photonics and electronics with higher bandwidths beyond 100 GHz will play a crucial role. Integration of thin-film LiNbO3 modulator onto a Silicon Photonics platform is shown to be a viable option to meet the needs for new generations of optical transceivers. Front-end electronics such as linear modulator drivers and transimpedance amplifiers can rely on traveling-wave design approaches to allow continued bandwidth scaling despite (relative) slowing transistor speeds. Novel wireline data converter architectures can be used to overcome limitations of existing implementations. Maintaining signal integrity from photonics and electronics can be facilitated using both 2.5D and 3D integration approaches. While the introduction of novel materials and architectures will require time to further mature, optical transceivers operating at baudrates up to and beyond 200 Gbaud are now just beyond the horizon.
dc.description.wosFundingTextThe work of Lucas Van Severen was supported by an FWO PhD fellowship. This work was supported in part by the European Union's Horizon Europe Research and Innovation Program under Agreements 101070560 (PUNCH) and 101070178 (ADOPTION), in part by the Chips Joint Undertaking under Grant Agreement 101111896 (PhotonixFAB), and in part by the PhotonDelta National Growth Fund Programe-www.photondelta.com.
dc.identifier.doi10.1109/jstqe.2025.3539379
dc.identifier.issn1077-260X
dc.identifier.urihttps://imec-publications.be/handle/20.500.12860/59058
dc.language.isoeng
dc.provenance.editstepusergreet.vanhoof@imec.be
dc.publisherIEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
dc.source.beginpage6000116
dc.source.issue3
dc.source.journalIEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS
dc.source.numberofpages16
dc.source.volume31
dc.subject.keywordsMODULATOR DRIVER
dc.subject.keywordsSILICON
dc.subject.keywordsDESIGN
dc.subject.keywordsOPTIMIZATION
dc.subject.keywordsRECEIVERS
dc.subject.keywordsPLATFORM
dc.subject.keywordsBAND
dc.title

Integrated Photonics and Electronics for Optical Transceivers Supporting AI/ML Applications

dc.typeJournal article
dspace.entity.typePublication
imec.internal.crawledAt2026-04-07
imec.internal.sourcecrawler
imec.internal.wosCreatedAt2026-04-07
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