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Soft-Output (SO) GRAND and Iterative Decoding to Outperform LDPC Codes

Peihong Yuan, Muriel Médard, Kevin Galligan, Ken R. Duffy

2025IEEE Transactions on Wireless Communications19 citationsDOI

Abstract

We establish that a large, flexible class of long, high redundancy error correcting codes can be efficiently and accurately decoded with guessing random additive noise decoding (GRAND). Performance evaluation demonstrates that it is possible to construct simple product codes with lengths of approximately 200 to 4000 bits and rates between 0.2 and 0.8 that outperform low-density parity-check (LDPC) codes from the 5G New Radio standard in both AWGN and fading channels. The concatenated structure enables many desirable features, including: low-complexity hardware-friendly encoding and decoding; significant flexibility in length and rate through modularity; and high levels of parallelism in encoding and decoding that enable low latency. Central is the development of a method through which any soft-input (SI) GRAND algorithm can provide soft-output (SO) in the form of an accurate a-posteriori estimate of the likelihood that a decoding is correct or, in the case of list decoding, the likelihood that each element of the list is correct. The distinguishing feature of soft-output GRAND (SOGRAND) is the provision of an estimate that the correct decoding has not been found, even when providing a single decoding. Per-block SO can be converted into accurate per-bit SO by a weighted sum that includes a term for the SI. Implementing SOGRAND adds negligible computation and memory to the existing decoding process, and using it results in a practical, low-latency alternative to LDPC codes.

Topics & Concepts

Low-density parity-check codeDecoding methodsComputer scienceSerial concatenated convolutional codesList decodingTurbo codeAlgorithmError floorConcatenated error correction codeTheoretical computer scienceBlock codeError Correcting Code TechniquesAdvanced Wireless Communication TechniquesAdvanced Data Compression Techniques
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