High throughput hardware architecture for (1440,1344) low-density parity-check code utilizing quasi-cyclic structure

2008 5th International Symposium on Turbo Codes and Related Topics Pub Date : 2008-10-24 DOI:10.1109/TURBOCODING.2008.4658676

H. Yamagishi, M. Noda

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引用次数: 18

Abstract

High throughput architecture of an encoder and a decoder for a quasi-cyclic low-density parity-check (LDPC) code is proposed. A new systematic encoding method is carried out by polynomial manipulation. The proposed decoder architecture, where the check-node process is split into two processes so that the memory access becomes column-wise, enables overlapped message-passing for any parity-check matrix. The hardware architecture for the check-node processes utilizing a quasi-cyclic structure does not require complex multiplexers. Hardware employing the proposed architecture for a (1440,1344) LDPC code designed for high throughput millimeter wave application is evaluated using 65 nm CMOS technology. The gate count of the encoder for 3 Gbps and 6 Gbps throughput is 2.5 k and 3.1 k, respectively, and the gate count of the decoder for 8 iterations is 304 k and 409 k, respectively. A bit-error rate of 10-6 is obtained at Eb/N0 of 5.9 dB, and the estimated power consumption of the decoder is 58 mW for 3 Gbps and 86 mW for 6 Gbps.

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利用准循环结构的(1440,1344)低密度奇偶校验码的高吞吐量硬件架构

提出了一种准循环低密度奇偶校验码的高吞吐量编码器和解码器结构。通过多项式处理实现了一种新的系统编码方法。在所提出的解码器架构中，检查节点进程被分成两个进程，这样内存访问就可以按列进行，从而支持任何奇偶校验矩阵的重叠消息传递。利用准循环结构的检查节点进程的硬件架构不需要复杂的多路复用器。采用该架构的硬件(1440,1344)LDPC代码设计用于高吞吐量毫米波应用，使用65nm CMOS技术进行了评估。对于3gbps和6gbps吞吐量，编码器的门计数分别为2.5 k和3.1 k，对于8次迭代，解码器的门计数分别为304 k和409 k。在Eb/N0为5.9 dB时，获得了10-6的误码率，并且解码器的估计功耗为3gbps时的58 mW和6gbps时的86 mW。

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2008 5th International Symposium on Turbo Codes and Related Topics

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