A Multirate Fully Parallel LDPC Encoder for the IEEE 802.11n/ac/ax QC-LDPC Codes Based on Reduced Complexity XOR Trees
Επιτομή
This article proposes an encoding method based on a two-step encoding algorithm for the 12 quasi-cyclic (QC)-low-density parity-check (LDPC) (QC-LDPC) codes specified in the IEEE 802.11n/ac/ax standards. The proposed approach jointly considers all codes of the particular set, instead of targeting each code separately. The proposed algorithm performs multiplication by inverse matrices. The complexity of the multiplications is significantly reduced by the introduced encoding method. It allows the implementation of full-parallel architectures that execute the encoding process within a single clock cycle, or more for pipelined implementations, for any of the supported codes. A corresponding VLSI encoding architecture based on XOR-gate trees is also proposed. The proposed solution exploits the structure and features of the involved matrices to extract common subexpressions (CSs) using common sub-expression sharing techniques (CSST). Such expressions result due to common features of the original matrices and the corresponding inverses, identified in this article. Innovative subexpression extraction procedures that target the specific codes as a set are introduced here. Furthermore, illustrative single-clock hardware encoders derived by the proposed technique are integrated into 90- and 45-nm technologies at 1 GHz occupying 125 and 107 KGates, respectively, achieving throughput rates up to 1.62 Tbps. © 1993-2012 IEEE.
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