English

Beyond 300Gbps Silicon Microring Modulator with AI Acceleration

Applied Physics 2021-11-11 v1 Optics

Abstract

Silicon microring modulator (Si-MRM) has become one of the most promising compact modulators to meet the increasing capacity requirements of the next generation optical interconnection. The limited electro-optical (E-O) bandwidth, low modulation efficiency, and inherent modulation nonlinearity are the major factors that limit the Si-MRM modulation speed. To address these issues, we comprehensively optimize the Si-MRM from the device to the modulation and the signal processing. Large modulation bandwidth over 67GHz is achieved in our newly fabricated Si-MRM. Additionally, the laser wavelength and bias voltage of Si-MRM are optimized to significantly improve the modulation performance. Finally, we comprehensively study the theoretical model of modulation nonlinearity in Si-MRM, especially transient nonlinearity. A bidirectional gate recurrent unit (Bi-GRU) neural network with minor modification is applied to compensate for the nonlinear impairments. With all these efforts, we experimentally demonstrate a 302 Gbps Si-MRM-based O-band optical interconnection and achieve 300 Gbps transmission over a 1-km standard single-mode fiber using the discrete multitone modulation format with bit and power loading (BPL-DMT).

Keywords

Cite

@article{arxiv.2111.05331,
  title  = {Beyond 300Gbps Silicon Microring Modulator with AI Acceleration},
  author = {Fangchen Hu and Yuguang Zhang and Hongguang Zhang and Zhongya Li and Sizhe Xing and Jianyang Shi and Junwen Zhang and Xi Xiao and Nan Chi and Zhixue He and Shaohua Yu},
  journal= {arXiv preprint arXiv:2111.05331},
  year   = {2021}
}

Comments

15 pages,7 figures, Journal paper, submitted to Nature Communication

R2 v1 2026-06-24T07:32:47.074Z