Paper ID: 2304.13119

Application of Transformers for Nonlinear Channel Compensation in Optical Systems

Behnam Behinaein Hamgini, Hossein Najafi, Ali Bakhshali, Zhuhong Zhang

In this paper, we introduce a new nonlinear optical channel equalizer based on Transformers. By leveraging parallel computation and attending directly to the memory across a sequence of symbols, we show that Transformers can be used effectively for nonlinear equalization in coherent long-haul transmission. For this application, we present an implementation of the encoder part of the Transformer and analyze its performance over a wide range of different hyper-parameters. It is shown that by processing blocks of symbols at each iteration and carefully selecting subsets of the encoder's output to be processed together, an efficient nonlinear compensation can be achieved for different complexity constraints. We also propose the use of a physic-informed mask inspired by nonlinear perturbation theory for reducing the computational complexity of the attention mechanism.

Submitted: Apr 25, 2023