Algorithm-based low-power/high-speed Reed-Solomon decoder design

Raghupathy A.; Liu K.J.R.

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Algorithm-based low-power/high-speed Reed-Solomon decoder design

机译：基于算法的低功耗/高速Reed-Solomon解码器设计

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With the spread of Reed-Solomon (RS) codes to portable wireless applications, low-power RS decoder design has become important. This paper discusses how the Berlekamp Massey decoding algorithm can be modified and mapped to obtain a low-power architecture. In addition, architecture level modifications that speed-up the syndrome and error computations are proposed. Then the VLSI architecture and design of the proposed low power/high-speed decoder is presented. The proposed design is compared with a normal design that does not use these algorithm/architecture modifications. The power reduction when compared to the normal design is estimated. The results indicate a power reduction of about 40% or a speed-up of 1.34.

机译：随着里德-所罗门（RS）码在便携式无线应用中的普及，低功耗RS解码器设计变得非常重要。本文讨论了如何修改和映射Berlekamp Massey解码算法以获得低功耗架构。此外，提出了可加快校正子和错误计算速度的体系结构级别修改。然后给出了所提出的低功耗/高速解码器的VLSI架构和设计。将拟议的设计与不使用这些算法/体系结构修改的常规设计进行比较。与正常设计相比，可降低功耗。结果表明功率降低约40％或加速1.34。

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《IEEE Transactions on Circuits and Systems. II, Express Briefs》 |2000年第11期|p.1254-1270|共17页
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Raghupathy A.; Liu K.J.R.;
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1. Algorithm-based low-power/high-speed Reed-Solomon decoder design [J] . Raghupathy A., Liu K.J.R. IEEE Transactions on Circuits and Systems. II . 2000,第11期

机译：基于算法的低功耗/高速Reed-Solomon解码器设计
2. A LOW-POWER DESIGN FOR REED-SOLOMON DECODERS [J] . HSIE-CHIA CHANG, CHEN-YI LEE Journal of Circuits, Systems, and Computers . 2003,第2期

机译：里德-所罗门解码器的低功耗设计
3. High-Speed Low-Power Viterbi Decoder Design for TCM Decoders [J] . He J., Liu H., Wang Z., Very Large Scale Integration (VLSI) Systems, IEEE Transactions on . 2012,第4期

机译：适用于TCM解码器的高速低功耗Viterbi解码器设计
4. High-speed re-encoder design for algebraic soft-decision Reed-Solomon decoding [C] . Zhu Jiangli, Zhang Xinmiao Proceedings of 2010 IEEE International Symposium on Circuits and Systems . 2010

机译：用于代数软判决Reed-Solomon解码的高速重新编码器设计
5. Algorithm-based low-power digital signal processing systems designs. [D] . Wu, An-Yeu (Andy). 1995

机译：基于算法的低功耗数字信号处理系统设计。
6. Design of a Sub-Picosecond Jitter with Adjustable-Range CMOS Delay-Locked Loop for High-Speed and Low-Power Applications [O] . Bilal I. Abdulrazzaq, Omar J. Ibrahim, Shoji Kawahito, 2016

机译：具有可调范围CMOS延迟锁定环路的亚皮秒抖动设计适用于高速和低功耗应用
7. Algorithm-Based Low-Power/HighSpeed Reed-Solomon Decoder Design [O] . Arun Raghupathy, K. J. R. Liu, Senior Member 2000

机译：基于算法的低功耗/高速Reed-solomon解码器设计
8. The design plan of a VLSI single chip (255, 223) Reed-Solomon decoder [R] . Hsu, I. S., Shao, H. M., Deutsch, L. J. 1987

机译：VLsI单芯片（255,223）Reed-solomon解码器的设计方案

Algorithm-based low-power/high-speed Reed-Solomon decoder design

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