BCH码的低功耗硬判决解码器

2021 International Conference on Advances in Computing and Communications (ICACC) Pub Date : 2021-10-21 DOI:10.1109/ICACC-202152719.2021.9708303

Pranitha Garlapati, B. Yamuna, Karthi Balasubramanian

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引用次数: 3

摘要

在Bose-Chaudhuri-Hocquenghem码的译码中，Peterson算法对具有单、双、三重纠错能力的码的译码效率更高。提出了许多方法来降低由于Peterson算法中涉及的反演操作而导致的硬件复杂性。本文采用文献中提出的无反转Peterson算法设计了一种低复杂度硬件BCH译码器，并用Matlab测试结果验证了其性能。我们尝试设计这种低复杂度BCH解码器的低功耗版本，方法是用文献中最初使用的Berlekamp-Massey算法的两步p-并行Chien搜索方法取代解码器中的并行Chien搜索架构。对于使用无反转的Peterson算法，对并行Chien搜索架构进行了修改，由此产生的解码器显示出功耗降低高达42%，面积适度增加10%。

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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A Low Power Hard Decision Decoder for BCH Codes

In decoding of Bose-Chaudhuri-Hocquenghem codes, Peterson’s algorithm is more efficient for codes with single, double and triple error correcting capabilities. Numerous methods were proposed to reduce the hardware complexity caused due to the inversion operation involved in the Peterson’s algorithm. In this paper, a low complex hardware BCH decoder using inversion-less Peterson’s algorithm presented in literature is designed and its performance is verified with the Matlab results. An attempt is made to design a low power version of this low complex BCH decoder by replacing the parallel Chien search architecture in the decoder with the two-step p-parallel Chien search approach that is originally used in literature with the Berlekamp-Massey Algorithm. For use with the inversion-less Peterson’s algorithm the parallel Chien search architecture has been modified and the resultant decoder has shown a power reduction of up to 42 percentage with a moderate increase in area by 10 percentage.

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2021 International Conference on Advances in Computing and Communications (ICACC)

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