Eliminating the fanout bottleneck in parallel long BCH encoders

Parhi K.K.

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Eliminating the fanout bottleneck in parallel long BCH encoders

机译：消除并行长BCH编码器中的扇出瓶颈

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Long BCH codes can achieve about 0.6-dB additional coding gain over Reed-Solomon codes with similar code rate in long-haul optical communication systems. BCH encoders are conventionally implemented by a linear feedback shift register architecture. Encoders of long BCH codes may suffer from the effect of large fanout, which may reduce the achievable clock speed. The data rate requirement of optical applications require parallel implementations of the BCH encoders. In this paper, a novel scheme based on look-ahead computation and retiming is proposed to eliminate the effect of large fanout in parallel long BCH encoders. For a (2047, 1926) code, compared to the original parallel BCH encoder architecture, the modified architecture can achieve a speedup of 132%.

机译：在长距离光通信系统中，长BCH码比具有类似码率的Reed-Solomon码可实现约0.6 dB的附加编码增益。 BCH编码器通常由线性反馈移位寄存器架构实现。长BCH码的编码器可能会受到大扇出的影响，这可能会降低可达到的时钟速度。光学应用的数据速率要求需要BCH编码器的并行实现。本文提出了一种基于超前计算和重定时的新颖方案，以消除并行长BCH编码器中大扇出的影响。对于（2047，1926）码，与原始并行BCH编码器体系结构相比，修改后的体系结构可实现132％的加速。

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《IEEE transactions on circuits and systems . I , Regular papers》 |2004年第3期|p.512-516|共5页
作者
Parhi K.K.;
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正文语种 eng
中图分类 TN71;
关键词
BCH codes; optical communication; shift registers; Reed-Solomon codes; clock speed; coding gain; data rate requirement; fanout bottleneck; linear feedback shift register architecture; long-haul optical communication systems; look-ahead computation; look-ahead retim;

机译：BCH代码;光通信;移位寄存器;Reed-Solomon码;时钟速度;编码增益;数据速率要求;扇出瓶颈;线性反馈移位寄存器架构;远程光通信系统;超前计算;超前Retim;

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1. High-Speed Architectures for Parallel Long BCH Encoders [J] . Zhang X., Parhi K.K. IEEE transactions on very large scale integration (VLSI) systems . 2005,第7期

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2. Trapper: eliminating performance bottlenecks in a parallel embedded application [J] . Heinze F., Schafers L. IEEE concurrency . 1997,第3期

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3. Calibration of encoder indexing of a redundantly actuated parallel mechanism to eliminate contradicting control forces [J] . Giuk Lee, Jay I. Jeong, Jongwon Kim Mechanics Based Design of Structures and Machines . 2016,第1a4期

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4. Eliminating the fanout bottleneck in parallel long BCH encoders [C] . Parhi, K.K. . 2004

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5. A Flexible BCH Decoder for Flash Memory Systems Using Cascaded BCH codes [D] . Subbiah, Arul Kumar. 2019

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7. 1 CRT-Based High Speed Parallel Architecture for Long BCH Encoding [O] . Hao Chen 2009

机译：1个基于CRT的高速并行架构，用于长BCH编码
8. Hardware Implementation of a BCH Encoder, Decoder, and Interface [R] . LeClair, N. R. 1988

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Eliminating the fanout bottleneck in parallel long BCH encoders

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