Real-time transmission of geometrically-shaped signals using a software-defined GPU-based optical receiver

Sjoerd van der Heide; Ruben S. Luis; Sebastiaan Goossens; Benjamin J. Puttnam; Georg Rademacher; Ton Koonen; Satoshi Shinada; Yoshinari Awaji; Alex Alvarado; Hideaki Furukawa; Chigo Okonkwo

Journal ArticleOPEN ACCESS

Real-time transmission of geometrically-shaped signals using a software-defined GPU-based optical receiver

van der Heide S
Luis R
Goossens S
et al.

Optics Express (2022) 30(15) 27171

DOI: 10.1364/oe.450514

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Abstract

A software-defined optical receiver is implemented on an off-the-shelf commercial graphics processing unit (GPU). The receiver provides real-time signal processing functionality to process 1 GBaud minimum phase (MP) 4-, 8-, 16-, 32-, 64-, 128-ary quadrature amplitude modulation (QAM) as well as geometrically shaped (GS) 8- and 128-QAM signals using Kramers-Kronig (KK) coherent detection. Experimental validation of this receiver over a 91 km field-deployed optical fiber link between two Tokyo locations is shown with detailed optical signal-to-noise ratio (OSNR) investigations. A net data rate of 5 Gbps using 64-QAM is demonstrated.

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van der Heide, S., Luis, R. S., Goossens, S., Puttnam, B. J., Rademacher, G., Koonen, T., … Okonkwo, C. (2022). Real-time transmission of geometrically-shaped signals using a software-defined GPU-based optical receiver. Optics Express, 30(15), 27171. https://doi.org/10.1364/oe.450514

Real-time transmission of geometrically-shaped signals using a software-defined GPU-based optical receiver

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