Efficient Implementation of Low-Density Parity-Check Convolutional Code Encoders With Built-In Termination

Chen Z.; Brandon T. L.; Bates S.; Elliott D. G.; Cockburn B. F.

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Efficient Implementation of Low-Density Parity-Check Convolutional Code Encoders With Built-In Termination

机译：具有内置终端的低密度奇偶校验卷积码编码器的高效实现

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Low-density parity-check convolutional codes (LDPC-CCs) have demonstrated comparable error-correcting performance to LDPC block codes (LDPC-BCs). However, the LDPC-CC encoder requires termination when applied to finite-length data frames to ensure that the trailing information bits are fully protected. In this paper, the LDPC-CC encoder design is investigated, and a novel termination scheme is proposed. Starting from any encoder state, the proposed scheme is capable of generating a termination sequence in hardware without padding, thus minimizing the rate loss due to termination. A high-speed architecture for LDPC-CC encoders with built-in termination is proposed. Synthesis results for LDPC-CCs of code memory size up to 512 demonstrate maximum encoding throughputs of around 1 Gb/s for a 90-nm CMOS technology. The implementation cost for such encoders is shown to be reasonably low for average-sized LDPC-CCs.

机译：低密度奇偶校验卷积码（LDPC-CC）已证明与LDPC块码（LDPC-BC）具有可比的纠错性能。但是，当将LDPC-CC编码器应用于有限长度的数据帧时，要求终结处理，以确保尾随信息位得到完全保护。本文对LDPC-CC编码器的设计进行了研究，提出了一种新颖的端接方案。从任何编码器状态开始，提出的方案都能够在硬件中生成终止序列而无需填充，从而将由于终止而导致的速率损失最小化。提出了一种带有内置终端的LDPC-CC编码器的高速架构。编码存储大小最大为512的LDPC-CC的综合结果表明，对于90 nm CMOS技术，最大编码吞吐量约为1 Gb / s。对于平均大小的LDPC-CC，此类编码器的实现成本显示相当低。

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《IEEE transactions on circuits and systems . I , Regular papers》 |2008年第11期|p.3628-3640|共13页
作者
Chen Z.; Brandon T. L.; Bates S.; Elliott D. G.; Cockburn B. F.;
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正文语种 eng
中图分类 TN71;
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Application-specific integrated circuits (ASICs); convolutional codes; error correction coding; high-speed integrated circuits; low-density parity-check (LDPC) codes; trellis termination;

机译：专用集成电路（ASIC）;卷积码;纠错编码;高速集成电路;低密度奇偶校验（LDPC）码;网格终止;

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专利

1. Termination Sequence Generation Circuits for Low-Density Parity-Check Convolutional Codes [J] . Bates S., Elliott D.G., Swamy R. IEEE transactions on circuits and systems . I , Regular papers . 2006,第9期

机译：低密度奇偶校验卷积码的终止序列生成电路
2. Termination Sequence Generation Circuits for Low-Density Parity-Check Convolutional Codes [J] . Bates S., Elliott D.G., Swamy R. IEEE Transactions on Circuits and Systems. I, Regular Papers . 2006,第期

机译：低密度奇偶校验卷积码的终止序列生成电路
3. Efficient encoding of quasi-cyclic low-density parity-check codes [J] . Zongwang Li, Lei Chen, Lingqi Zeng, IEEE Transactions on Communications . 2006,第1期

机译：准循环低密度奇偶校验码的高效编码
4. Efficient Encoding and Termination of Low-Density Parity-Check Convolutional Codes [C] . Zhengang Chen, Stephen Bates, Duncan Elliott, Global Telecommunications Conference . 2006

机译：低密度奇偶校验卷积码的高效编码和终止
5. Parallel-node low-density parity-check convolutional code encoder and decoder architectures. [D] . Brandon, Tyler. 2010

机译：并行节点低密度奇偶校验卷积码编码器和解码器体系结构。
6. Efficient steganalysis using convolutional auto encoder network to ensure original image quality [O] . Mallikarjuna Reddy Ayaluri, Sudheer Reddy K., Srinivasa Reddy Konda, 2021

机译：使用卷积自动编码器网络的高效吊带分析以确保原始图像质量
7. Efficient Encoding of Low-Density Parity-Check Codes [O] . Thomas J. Richardson, Rüdiger L. Urbanke 2001

机译：低密度奇偶校验码的有效编码

Efficient Implementation of Low-Density Parity-Check Convolutional Code Encoders With Built-In Termination

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