High-Speed Architectures for Parallel Long BCH Encoders

Zhang X.; Parhi K.K.

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High-Speed Architectures for Parallel Long BCH Encoders

机译：并行长BCH编码器的高速架构

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Long Bose–Chaudhuri–Hocquenghen (BCH) codes are used as the outer error correcting codes in the second-generation Digital Video Broadcasting Standard from the European Telecommunications Standard Institute. These codes can achieve around 0.6-dB additional coding gain over Reed–Solomon codes with similar code rate and codeword length in long-haul optical communication systems. BCH encoders are conventionally implemented by a linear feedback shift register architecture. High-speed applications of BCH codes require parallel implementation of the encoders. In addition, long BCH encoders suffer from the effect of large fanout. In this paper, three novel architectures are proposed to reduce the achievable minimum clock period for long BCH encoders after the fanout bottleneck has been eliminated. For an (8191, 7684) BCH code, compared to the original 32-parallel BCH encoder architecture without fanout bottleneck, the proposed architectures can achieve a speedup of over 100%.

机译：欧洲电信标准协会的第二代数字视频广播标准将长Bose-Chaudhuri-Hocquenghen（BCH）码用作外部纠错码。在长距离光通信系统中，与具有相似码率和码字长度的里德-所罗门码相比，这些码可以实现约0.6 dB的额外编码增益。 BCH编码器通常由线性反馈移位寄存器架构实现。 BCH代码的高速应用需要并行执行编码器。另外，长的BCH编码器会遭受大扇出的影响。在本文中，提出了三种新颖的体系结构，以在消除扇出瓶颈后减少长BCH编码器可实现的最小时钟周期。对于（8191、7684）BCH代码，与没有扇出瓶颈的原始32并行BCH编码器体系结构相比，所提出的体系结构可以实现超过100％的加速。

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《IEEE transactions on very large scale integration (VLSI) systems》 |2005年第7期|p.872-877|共6页
作者
Zhang X.; Parhi K.K.;
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正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
Bose–Chaudhuri–Hocquenghen (BCH); critical loop; encoder; fanout; generator polynomial; iteration bound; linear feedback shift register (LFSR); parallel processing; retiming; unfolding; Bose–Chaudhuri–Hocquenghen (BCH); critical loop; encoder;

机译：Bose-Chaudhuri-Hocquenghen（BCH）;临界循环;编码器;扇出;发电机多项式;迭代边界;线性反馈移位寄存器（LFSR）;并行处理;重定时;展开;Bose-Chaudhuri-Hocquenghen（BCH）;临界循环;编码器;

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1. High-Speed Two-Parallel Concatenated BCH-Based Super-FEC Architecture for Optical Communications [J] . Sangho YOON, Hanho LEE, Kihoon LEE IEICE Transactions on fundamentals of electronics, communications & computer sciences . 2010,第4期

机译：用于光通信的高速两并联串联基于BCH的Super-FEC架构
2. High-Speed Low-Power Flash ADC Architecture Using Switched-Capacitor Positive Feedback Comparator and Parallel Single-Gate Encoder [J] . Abdel-Hafeez Saleh, Shatnawi Ali Circuits, systems, and signal processing . 2018,第6期

机译：采用开关电容正反馈比较器和并行单门编码器的高速低功耗闪存ADC架构
3. High-speed and parallel approach for decoding of binary BCH codes with application to Flash memory devices [J] . H. Prashantha Kumar, U. Sripati, K. Rajesh Shetty International journal of electronics . 2012,第4a6期

机译：高速并行方法解码二进制BCH代码并应用于闪存设备
4. Development of the Parallel BCH and LDPC Encoders Architecture for the Second Generation Digital Video Broadcasting Standards with Adjustable Encoding Parameters on FPGA [C] . Tran Van Nghia International Conference on Engineering and Telecommunication . 2016

机译：FPGA上具有可调编码参数的第二代数字视频广播标准的并行BCH和LDPC编码器架构的开发
5. A low-power high-speed single-ended parallel link using three-level differential encoding. [D] . Zogopoulos, Sotirios. 2007

机译：使用三级差分编码的低功耗高速单端并行链路。
6. FQStat: a parallel architecture for very high-speed assessment of sequencing quality metrics [O] . Sree K. Chanumolu, Mustafa Albahrani, Hasan H. Otu 2019

机译：FQStat：一种并行架构可非常快速地评估测序质量指标
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

机译：BCH编码器，解码器和接口的硬件实现

High-Speed Architectures for Parallel Long BCH Encoders

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