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56 GBaud PAM-4 100 km Transmission System with Photonic Processing Schemes

AuthorsEstébanez, Irene; Li, Shi; Schwind, Janek; Fischer, Ingo CSIC ORCID ; Pachnicke, Stephan; Argyris, Apostolos CSIC ORCID
Issue Date17-May-2021
CitationEstébanez, Irene; Li, Shi; Schwind, Janek; Fischer, Ingo; Pachnicke, Stephan; Argyris, Apostolos; 2021; 56 GBaud PAM-4 100 km Transmission System with Photonic Processing Schemes [Preprint]; arXiv;
AbstractAnalog photonic computing has been proposed and tested in recent years as an alternative approach for data recovery in fiber transmission systems. Photonic reservoir computing, performing nonlinear transformations of the transmitted signals and exhibiting internal fading memory, has been found advantageous for this kind of processing. In this work, we show that the effectiveness of the internal fading memory depends significantly on the properties of the signal to be processed. Specifically, we demonstrate two experimental photonic post-processing schemes for a 56 GBaud PAM-4 experimental transmission system, with 100 km uncompensated standard single-mode fiber and direct detection. We show that, for transmission systems with significant chromatic dispersion, the contribution of a photonic reservoir's fading memory to the computational performance is limited. In a comparison between the data recovery performances between a reservoir computing and an extreme learning machine fiber-based configuration, we find that both offer equivalent data recovery. The extreme learning machine approach eliminates the necessity of external recurrent connectivity, which simplifies the system and increases the computation speed. Error-free data recovery is experimentally demonstrated for an optical signal to noise ratio above 30 dB, outperforming an implementation of a Kramers-Kronig receiver in the digital domain.
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