Reduced-Complexity LCC Reed–Solomon Decoder Based on Unified Syndrome Computation

摘要

Reed–Solomon (RS) codes are widely used in digital communication and storage systems. Algebraic soft-decision decoding (ASD) of RS codes can obtain significant coding gain over the hard-decision decoding (HDD). Compared with other ASD algorithms, the low-complexity Chase (LCC) decoding algorithm needs less computation complexity with similar or higher coding gain. Besides employing complicated interpolation algorithm, the LCC decoding can also be implemented based on the HDD. However, the previous syndrome computation for $2^{eta}$ test vectors and the key equation solver (KES) in the HDD requires long latency and remarkable hardware. In this brief, a unified syndrome computation algorithm and the corresponding architecture are proposed. Cooperating with the KES in the reduced inversion-free Berlekamp-Messy algorithm, the reduced-complexity LCC RS decoder can speed up by 57% and the area will be reduced to 62% compared with the original design for $eta=3$.