Energy-Efficient and Area-Efficient QC-LDPC with RS Decoders Using 2M-LMSA

Chang-Kun Yao; Yun-Ching Tang; Hongchin Lin

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Energy-Efficient and Area-Efficient QC-LDPC with RS Decoders Using 2M-LMSA

机译：使用2M-LMSA的带RS解码器的节能和高效QC-LDPC

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摘要

This study proposes an energy-efficient and area-efficient dual-path low-density parity-check (LDPC) with Reed-Solomon (RS) decoder for communication systems. Hardware complexity is reduced by applying a dual-path 2-bit modified layered min-sum algorithm (2M-LMSA) to a (2550, 2040) quasi-cyclic LDPC (QC-LDPC) code with the column and row weights of 3 and 15, respectively. The simplified check node units (CNUs) reduce memory and routing complexity as well as the energy needed to decode each bit. A throughput of 11 Gb/s is achieved by using 90-nm CMOS technology at a clock frequency of 208 MHz at 0.9 V with average power of 244 mW on a chip area of 3.05 mm~2. Decoding performance is further improved by appending the (255, 239) RS decoder after the LDPC decoder. The LDPC plus RS decoder consumes the power of 434 mW on the area of 3.45 mm~2.

机译：这项研究提出了一种具有Reed-Solomon（RS）解码器的节能高效且面积高效的双路径低密度奇偶校验（LDPC）。通过将双路径2位修改的分层最小和算法（2M-LMSA）应用于列权重为3和行权重为（2550，2040）的准循环LDPC（QC-LDPC）码来降低硬件复杂性15，分别。简化的校验节点单元（CNU）减少了内存和路由的复杂性，以及解码每个位所需的能量。通过使用90-nm CMOS技术在0.9 V时的208 MHz时钟频率和3.05 mm〜2的芯片面积上的平均功率为244 mW，可以实现11 Gb / s的吞吐量。通过在LDPC解码器之后附加（255，239）RS解码器，可以进一步提高解码性能。 LDPC加RS解码器在3.45 mm〜2的面积上消耗434 mW的功率。

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《Journal of Circuits, Systems, and Computers》 |2015年第2期|1550026.1-1550026.15|共15页
作者
Chang-Kun Yao; Yun-Ching Tang; Hongchin Lin;
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作者单位

Department of Electrical Engineering, National Chung Hsing University, Taichung 402, Taiwan;

Department of Electronics Engineering, Hsiuping Institute of Technology, Taichung 412, Taiwan;

Department of Electrical Engineering, National Chung Hsing University, Taichung 402, Taiwan;

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正文语种 eng
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关键词
Low-density parity-check codes; VLSI decoder architectures; layer min-sum algorithm;

机译：低密度奇偶校验码;VLSI解码器架构;层最小和算法;

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Energy-Efficient and Area-Efficient QC-LDPC with RS Decoders Using 2M-LMSA

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