Parallel architecture for high-speed Reed-Solomon codec

ITS'98 Proceedings. SBT/IEEE International Telecommunications Symposium (Cat. No.98EX202) Pub Date : 1998-08-09 DOI:10.1109/ITS.1998.718439

T. Matsushima, T. Matsushima, S. Hirasawa

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引用次数: 16

Abstract

This paper presents a parallel architecture for a high-speed Reed-Solomon (RS) encoder and decoder (codec) LSI. Since the architecture allows H symbols to be processed in parallel the codec LSI achieves a data rate of mLH b/s. where m is the symbol size (m bits per symbol), L is the clock frequency of the circuit, and H is an arbitrary integer. As an example, we investigate hardware complexity, delay and critical path length for a (255.251) RS code. It is shown that both the hardware complexity and the delay for a parallel circuit is much less than that with the parallel operation of H conventional circuits. Although the only problem with, this parallel architecture is that the encoder's critical path length increases with H, the proposed architectures is more efficient than a setup using H conventional circuits for high data rate applications. It is also suggested that parallel RS codecs, which can keep up with optical transmission rates, i.e. several giga bits/sec. could be implemented on one LSI chip, using current CMOS technology.

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高速Reed-Solomon编解码器的并行架构

本文提出了一种高速Reed-Solomon (RS)编解码器(codec) LSI的并行结构。由于该架构允许并行处理H符号，因此编解码器LSI的数据速率可达mLH b/s。其中m为符号大小(每个符号m位)，L为电路的时钟频率，H为任意整数。作为一个例子，我们研究了(255.251)RS码的硬件复杂性、延迟和关键路径长度。结果表明，并行电路的硬件复杂度和延迟都比传统电路并行运行时要小得多。虽然这种并行架构的唯一问题是编码器的关键路径长度随着H的增加而增加，但对于高数据速率应用，所提出的架构比使用H传统电路的设置更有效。还建议采用并行RS编解码器，它可以跟上光传输速率，即千兆比特/秒。可以在一个LSI芯片上实现，使用当前的CMOS技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ITS'98 Proceedings. SBT/IEEE International Telecommunications Symposium (Cat. No.98EX202)

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