A New VLSI Architecture of Next-Generation QC-LDPC Decoder for 5G New-Radio Wireless-Communication Standard

In this paper, we present a new microarchitecture of low-density parity-check (LDPC) decoder compliant to the specifications of 5G new-radio (NR) wireless-communication standard. This work suggests a fully-parallel VLSI architecture for this decoder to achieve high throughput. The digital architecture of internal modules as well as system-level design of the LDPC decoder are presented here. The comprehensive bit-error-rate (BER) performance analyses of our LDPC decoder has been performed in additive-white Gaussian-noise (AWGN) channel environment for various number of decoding iterations and bit-quantization. It delivers a BER of 10−6 at 1 dB of E b /N 0 while decoding for 10 iterations with 7-bits quantization. In addition, FPGA implementation and post-route simulation of the proposed LDPC decoder are carried out that can decode an encoded LDPC code of 26112 code-length for 1/3 code-rate. Our decoder has achieved a throughput of 2.9 Gbps while operating at a clock frequency of 102 MHz. These implementation results are compared with the reported works where our design delivered 20× better throughput compared to the state-of-the-art LDPC decoders.