Design of Viterbi decoders with in-place state metric update and hybrid traceback processing

2001 IEEE Workshop on Signal Processing Systems. SiPS 2001. Design and Implementation (Cat. No.01TH8578) Pub Date : 2001-09-26 DOI:10.1109/SIPS.2001.957325

Ching-wen Wang, Yun-Nan Chang

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引用次数: 6

Abstract

A novel design of Viterbi (1965) decoder based on in-place state metric update and hybrid survivor path management is presented. For those Viterbi applications with large constraint length, the proposed design methodology can result in high-speed and modular architectures by exploiting the in-place computation feature of the Viterbi algorithm. This feature is not only applied to the design of highly regular add-compare-select (ACS) units, but also exploited in the design of trace-back units for the first time. The proposed hybrid survivor path management based on the combination of register-exchange and trace-back schemes cannot only reduce the number of memory operations, but also the size of memory required. Compared with the general hybrid trace-back structure, the overhead of the register-exchange circuit in our architecture is significantly less. Therefore, the proposed architecture can find promising applications in digital communication systems where high-speed large state Viterbi decoders are desirable.

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就地状态度量更新和混合回溯处理的维特比解码器设计

提出了一种基于就地状态度量更新和混合存活路径管理的Viterbi(1965)解码器设计。对于约束长度较大的Viterbi应用，该设计方法利用Viterbi算法的就地计算特性，实现了高速模块化架构。这一特点不仅适用于高规则的加比较选择(ACS)装置的设计，而且首次应用于回溯装置的设计。本文提出的基于寄存器交换和回溯机制的混合幸存者路径管理不仅减少了内存操作的次数，而且减小了所需内存的大小。与一般的混合回溯结构相比，本体系结构中寄存器交换电路的开销明显减少。因此，所提出的架构可以在需要高速大状态维特比解码器的数字通信系统中找到有前途的应用。

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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2001 IEEE Workshop on Signal Processing Systems. SiPS 2001. Design and Implementation (Cat. No.01TH8578)

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