一种用于VLSI设计1/N速率维特比解码器的收缩算法

Proceedings. Electrotechnical Conference Integrating Research, Industry and Education in Energy and Communication Engineering', Pub Date : 1989-04-11 DOI:10.1109/MELCON.1989.50043

S. Sait, A. F. Damati, M. Rahman

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引用次数: 0

摘要

提出了一种新的Viterbi解码的收缩结构。它由两个处理器块组成。第一个包含一列处理器，这些处理器执行分支度量计算并决定幸存的分支。第二个由一个更简单的处理器矩阵组成，这些处理器更新幸存的路径并提供解码的输出。在AHPL中对收缩算法进行建模，以验证功能的正确性。讨论了实现细节。研究发现，所提出的收缩设计在速度和模块化方面优于以前的维特比解码器实现。

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A systolic algorithm for VLSI design of a 1/N rate Viterbi decoder

A novel systolic architecture for Viterbi decoding is presented. It consists of two blocks of processors. The first contains a column of processors which perform branch metric computation and decide on the survived branches. The second consists of a matrix of simpler processors which update survived paths and provide the decoded output. The systolic algorithm is modeled in AHPL to verify functional correctness. Implementation details are discussed. It is found that the proposed systolic design compares favorably with previous implementations of Viterbi decoders in terms of speed and modularity.<>

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Proceedings. Electrotechnical Conference Integrating Research, Industry and Education in Energy and Communication Engineering',

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