On Low-Complexity Decoding of Product Codes for High-Throughput Fiber-Optic Systems
On Low-Complexity Decoding of Product Codes for High-Throughput Fiber-Optic Systems
We study low-complexity iterative decoding algorithms for product codes. We revisit two algorithms recently proposed by the authors based on bounded distance decoding (BDD) of the component codes that improve the performance of conventional iterative BDD (iBDD). We then propose a novel decoding algorithm that is based on generalized minimum distance decoding of the component codes. The proposed algorithm closes over 50% of the performance gap between iBDD and turbo product decoding (TPD) based on the Chase-Pyndiah algorithm. Moreover, the algorithm only leads to a limited increase in complexity with respect to iBDD and has significantly lower complexity than TPD. The studied algorithms are particularly interesting for high-throughput fiber-optic communications.
- German Aerospace Center Germany
- Chalmers University of Technology Sweden
- Duke University United States
FOS: Computer and information sciences, bounded distance decoding, soft-aided decoders, Computer Science - Information Theory, Information Theory (cs.IT), Communication Systems, Fiber Optic, Telecommunications, product codes, Embedded Systems, fiber-optic communications, Hard Decision Decoding, Product Codes
FOS: Computer and information sciences, bounded distance decoding, soft-aided decoders, Computer Science - Information Theory, Information Theory (cs.IT), Communication Systems, Fiber Optic, Telecommunications, product codes, Embedded Systems, fiber-optic communications, Hard Decision Decoding, Product Codes
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