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Compared to binary low-density parity-check (LDPC) codes, non-binary (NB) LDPC codes can achieve higher coding gain when the code length is moderate. On the other hand, the decoding of NB-LDPC codes is more complicated since a vector of messages instead of a single message is passed along each edge of the associated Tanner graph. Layered decoding can be employed to simplify LDPC decoding. However,...
In this paper, a LDPC decoder chip based on CPPEG code construction is presented. The (2048, 1920) irregular LDPC code generated by CP-PEG algorithm has better performance than other PEG-based codes; however, the large check node degrees introduced by high code-rate 15/16 become the implementation bottleneck. To design such a high code-rate LDPC decoder, our approach features variable-node-centric...
Partially parallel LDPC decoder is commonly used for practical applications due to its good tradeoff between the hardware cost and the throughput. In the partially parallel LDPC decoding architecture, two kinds of processor units are implemented: check node unit (CNU) and variable node unit (VNU). Because of the dependency between two kinds of processor units, the low hardware utilization efficiency...
In this paper, we present a flexible high-throughput LDPC decoder architecture that can support different code rates and block sizes in wireless applications such as IEEE 802.11n, IEEE 802.16e, and IEEE 802.15.3c standards. Several flexible LDPC decoders have been presented in the literature but their throughput (less than 640 Mbps) is limited due to block-serial scheduling of the decoding computations...
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