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An Open EDFA Gain Spectrum Dataset and Its Applications in Data-driven EDFA Gain Modeling

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posted on 2023-04-25, 09:45 authored by Zehao Wang, Daniel Kilper, Tingjun Chen
Optical networks satisfy high bandwidth and low latency requirements for telecommunication networks and data center interconnection. To improve the network resource utilization, machine learning (ML) is used to accurately model optical amplifiers such as erbium-doped fiber amplifiers (EDFAs) which impact end-to-end system performance such as quality of transmission (QoT). However, a comprehensive measurement dataset is required for ML to accurately predict an EDFA’s wavelength-dependent gain. We present an open dataset consisting of 202,752 gain spectrum measurements collected from 16 commercial-grade ROADM booster and pre-amplifier EDFAs under varying gain settings and diverse channel loading configurations over 2,785 hours in total, with a total dataset size of 3.1 GB. With this EDFA dataset, we implemented component-level deep neural network (DNN) based EDFA models and use transfer learning (TL) to transfer the EDFA model among 16 ROADM EDFAs, which achieve less than 0.18/0.24 dB mean absolute error for booster/pre-amplifier gain prediction using only 0.5% of the full target training set. We also showed that TL reduces the EDFA data collection requirements on a new gain setting or a different type of EDFA on the same ROADM.

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Funder Name

National Science Foundation (1827923,2029295,2112562,2211944); Science Foundation Ireland (Grant #13/RC/2077_P2)

Preprint ID

105602

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