计算Wigner分布的VLSI结构

ICASSP-88., International Conference on Acoustics, Speech, and Signal Processing Pub Date : 1988-04-11 DOI:10.1109/ICASSP.1988.197053

I. Gertner, Moshe Shamash

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引用次数: 1

摘要

作者提出并讨论了在任何维度上实现Wigner分布的混合VLSI架构。对数字信号处理的流水线体系结构的分析有两个贡献。首先是引入渐近面积效率的概念，除了AT/sup /之外，它是分析中的另一个重点。第二是在I/O带宽的构建下，通过匹配它们的数据速率比率来呈现流水线阵列的基本设计方法。匹配良好的阵列具有良好的区域时间性能和高效率。流水线方法通过计算子问题的数组的系统构造形成了新体系结构的基础。作者系统地从计算子问题和(静态)排列网络的数组中寻找计算维格纳分布的最优结构。流水线技术产生了几种结构，提取了AT/sup /和面积效率意义上的最优设计。

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VLSI structures for computing the Wigner distribution

The authors propose and discuss hybrid VLSI architectures for implementing the Wigner distribution in any dimension. Two contributions are made to the analysis of pipelined architectures for digital signal processing. The first is in introducing the notion of asymptotic area efficiency which in addition to AT/sup 2/ is used as another focal point in the analyses. The second is in presenting a basic design methodology for pipelining arrays under construction of I/O bandwidth by matching their data rate ratios. Well-matched arrays yield good area-time performance with high efficiency. The pipeline methodology forms the basis for new architectures by a systematic construction from arrays that compute subproblems. The authors systematically search for an optimal structure for computing the Wigner distribution in any dimension from arrays that compute subproblems and (static) permutation networks. The pipelining technique yields several structures of which the optimal designs in the sense of AT/sup 2/ and area efficiency are extracted.<>

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ICASSP-88., International Conference on Acoustics, Speech, and Signal Processing

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