Reduced-Complexity Nonbinary LDPC Decoder for High-Order Galois Fields Based on Trellis Min–Max Algorithm

摘要

Nonbinary LDPC codes outperform their binary counterparts in different scenarios. However, they require a considerable increase in complexity, especially in the check-node (CN) processor, for high-order Galois fields (GFs) higher than GF(16). To overcome this drawback, we propose an approximation for the trellis min-max algorithm that allows us to reduce the number of exchanged messages between the CN and the variable node compared with previous proposals from the literature. On the other hand, we reduce the complexity in the CN processor, keeping the parallel computation of messages. We implemented a layered scheduled decoder, based on this algorithm, in a 90-nm CMOS technology for the (837, 723) NB-LDPC code over GF(32) and the (1536, 1344) over GF(64), achieving an area saving of 16% and 36% for the CN and 10% and 12% for the whole decoder, respectively. The throughput is 1.07 and 1.26 Gb/s, which outperforms the state of the art of high-rate decoders with the high GF order from the literature.