RF classification-based nonlinear distortion mitigation for 120 Gbit/s PAM8-modulated optical interconnects in IM/DD

IF 1.1 4区物理与天体物理 Q4 OPTICS Optical Review Pub Date : 2024-02-08 DOI:10.1007/s10043-023-00861-5

Yilin Zhang, Xiangye Zeng, Jingyi Wang, Yang Wang, Jianfei Liu, Jia Lu, Jie Ma, Zhao Shen, Baoshuo Fan

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Abstract

Intensity modulation/direct detection (IM/DD) optical interconnect systems are susceptible to waveform distortion caused by complex nonlinearities. To reduce the effect of waveform distortion on signal transmission accuracy, in this paper, a random forest (RF) equalization algorithm based on decision tree (DT) integration is proposed for cost-sensitive IM/DD systems, which has the characteristics of nonlinear classification and regression. The performance of the RF equalizer is verified by simulation experiments on a 120 Gbps 8-level pulse amplitude modulation (PAM8) transmission system using an electro-absorption-modulated laser (EML). Simulation studies show that whether it is a back-to-back (B2B) transmission system or a 10 km optical fiber transmission system, the RF equalization scheme can achieve much better bit error rate (BER) performance than the traditional equalization scheme. In addition, in both transmission cases, the RF equalization scheme enables efficient classification of signals and is much less simpler than the artificial neural network (ANN) equalization scheme.

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基于射频分类的非线性失真缓解技术，用于 IM/DD 中的 120 Gbit/s PAM8 调制光互联

强度调制/直接检测（IM/DD）光互连系统容易受到复杂非线性因素造成的波形失真影响。为减少波形失真对信号传输精度的影响，本文针对成本敏感的 IM/DD 系统提出了一种基于决策树（DT）集成的随机森林（RF）均衡算法，该算法具有非线性分类和回归的特点。通过在使用电吸收调制激光器（EML）的 120 Gbps 8 级脉冲幅度调制（PAM8）传输系统上进行仿真实验，验证了射频均衡器的性能。仿真研究表明，无论是背对背（B2B）传输系统还是 10 千米光纤传输系统，射频均衡方案都能获得比传统均衡方案更好的误码率（BER）性能。此外，在这两种传输情况下，射频均衡方案都能有效地对信号进行分类，而且比人工神经网络（ANN）均衡方案简单得多。

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来源期刊

Optical Review 物理-光学

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

2 months

期刊介绍： Optical Review is an international journal published by the Optical Society of Japan. The scope of the journal is: General and physical optics; Quantum optics and spectroscopy; Information optics; Photonics and optoelectronics; Biomedical photonics and biological optics; Lasers; Nonlinear optics; Optical systems and technologies; Optical materials and manufacturing technologies; Vision; Infrared and short wavelength optics; Cross-disciplinary areas such as environmental, energy, food, agriculture and space technologies; Other optical methods and applications.