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Transceiver circuits for high-baudrate optical interconnects

Johan Bauwelinck (UGent) , Marijn Verbeke (UGent) , Joris Lambrecht (UGent) , Michael Vanhoecke (UGent) , Laurens Breyne, Gertjan Coudyzer (UGent) , Jakob Declercq (UGent) , Bart Moeneclaey (UGent) , Riaz Ahmed (UGent) , Nishant Singh (UGent) , et al.
Author
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Abstract
New circuit architectures and technologies for high-speed electronic and photonic integrated circuits are essential to realize optical interconnects with higher symbol rate. As a consequence of the increasing speeds, close integration and co-design of photonic and electronic chips have become a necessity to realize high-performance transceivers with novel packaging approaches. Extensive co-design also enables the design of new electro-optic architectures to create and process optical signals more efficiently. This paper and presentation will illustrate a number of recent developments of application-specific high-speed electro-optic transceiver circuits including e.g. broadband driver amplifiers, transimpedance amplifiers, analog equalizers and multiplexer circuits for signal generation and reception at 100 Gbaud and beyond. The basic concepts and architectures, technological aspects, design challenges and trade-offs will be discussed.
Keywords
optical transceiver, optical interconnect, electronic-photonic co-design, driver, equalizer, transimpedance amplifier, (de-)multiplexer, clock generation

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MLA
Bauwelinck, Johan, et al. “Transceiver Circuits for High-Baudrate Optical Interconnects.” Optical Interconnects XXII, edited by Ray T. Chen and Henning Schröder, vol. 12007, SPIE, 2022, doi:10.1117/12.2607210.
APA
Bauwelinck, J., Verbeke, M., Lambrecht, J., Vanhoecke, M., Breyne, L., Coudyzer, G., … Ossieur, P. (2022). Transceiver circuits for high-baudrate optical interconnects. In R. T. Chen & H. Schröder (Eds.), Optical Interconnects XXII (Vol. 12007). https://doi.org/10.1117/12.2607210
Chicago author-date
Bauwelinck, Johan, Marijn Verbeke, Joris Lambrecht, Michael Vanhoecke, Laurens Breyne, Gertjan Coudyzer, Jakob Declercq, et al. 2022. “Transceiver Circuits for High-Baudrate Optical Interconnects.” In Optical Interconnects XXII, edited by Ray T. Chen and Henning Schröder. Vol. 12007. SPIE. https://doi.org/10.1117/12.2607210.
Chicago author-date (all authors)
Bauwelinck, Johan, Marijn Verbeke, Joris Lambrecht, Michael Vanhoecke, Laurens Breyne, Gertjan Coudyzer, Jakob Declercq, Bart Moeneclaey, Riaz Ahmed, Nishant Singh, Cédric Bruynsteen, Cheng Wang, Shengpu Niu, Xin Wang, Tinus Pannier, Ye Gu, Achim Vandierendonck, Borre Van Lombergen, Joris Van Kerrebrouck, Hannes Ramon, Michiel Verplaetse, Guy Torfs, Xin Yin, and Peter Ossieur. 2022. “Transceiver Circuits for High-Baudrate Optical Interconnects.” In Optical Interconnects XXII, ed by. Ray T. Chen and Henning Schröder. Vol. 12007. SPIE. doi:10.1117/12.2607210.
Vancouver
1.
Bauwelinck J, Verbeke M, Lambrecht J, Vanhoecke M, Breyne L, Coudyzer G, et al. Transceiver circuits for high-baudrate optical interconnects. In: Chen RT, Schröder H, editors. Optical Interconnects XXII. SPIE; 2022.
IEEE
[1]
J. Bauwelinck et al., “Transceiver circuits for high-baudrate optical interconnects,” in Optical Interconnects XXII, Online, 2022, vol. 12007.
@inproceedings{8745041,
  abstract     = {{New circuit architectures and technologies for high-speed electronic and photonic integrated circuits are essential to realize optical interconnects with higher symbol rate. As a consequence of the increasing speeds, close integration and co-design of photonic and electronic chips have become a necessity to realize high-performance transceivers with novel packaging approaches. Extensive co-design also enables the design of new electro-optic architectures to create and process optical signals more efficiently. This paper and presentation will illustrate a number of recent developments of application-specific high-speed electro-optic transceiver circuits including e.g. broadband driver amplifiers, transimpedance amplifiers, analog equalizers and multiplexer circuits for signal generation and reception at 100 Gbaud and beyond. The basic concepts and architectures, technological aspects, design challenges and trade-offs will be discussed.}},
  articleno    = {{120070H}},
  author       = {{Bauwelinck, Johan and Verbeke, Marijn and Lambrecht, Joris and Vanhoecke, Michael and Breyne, Laurens and Coudyzer, Gertjan and Declercq, Jakob and Moeneclaey, Bart and Ahmed, Riaz and Singh, Nishant and Bruynsteen, Cédric and Wang, Cheng and Niu, Shengpu and Wang, Xin and Pannier, Tinus and Gu, Ye and Vandierendonck, Achim and Van Lombergen, Borre and Van Kerrebrouck, Joris and Ramon, Hannes and Verplaetse, Michiel and Torfs, Guy and Yin, Xin and Ossieur, Peter}},
  booktitle    = {{Optical Interconnects XXII}},
  editor       = {{Chen, Ray T. and Schröder, Henning}},
  isbn         = {{9781510648852}},
  issn         = {{0277-786X}},
  keywords     = {{optical transceiver,optical interconnect,electronic-photonic co-design,driver,equalizer,transimpedance amplifier,(de-)multiplexer,clock generation}},
  language     = {{eng}},
  location     = {{Online}},
  pages        = {{7}},
  publisher    = {{SPIE}},
  title        = {{Transceiver circuits for high-baudrate optical interconnects}},
  url          = {{http://doi.org/10.1117/12.2607210}},
  volume       = {{12007}},
  year         = {{2022}},
}

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