利用微遗传算法降低高速FIR滤波器的复杂度

First International Symposium on Control, Communications and Signal Processing, 2004. Pub Date : 2004-09-27 DOI:10.1109/ISCCSP.2004.1296318

Ling Cen, Y. Lian

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引用次数: 10

摘要

在ASIC实现中，如果将长FIR滤波器分解为几个短滤波器，其系数以有符号的2次幂和的形式存在，则可以在没有流水线的情况下高速运行。这种实现降低了硬件成本，并显著降低了功耗，因为它不需要乘数器。本文提出了一种利用微遗传算法(/spl mu/GA)将一个长滤波器分解成若干个短滤波器，并将所有短滤波器的系数同时量化为带符号的二次幂值的滤波器合成方法。与传统遗传算法相比，所提出的/spl mu/GA大大加快了优化过程。

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Complexity reduction of high-speed FIR filters using micro-genetic algorithm

In the ASIC implementation, a long FIR filter can operate at high speed without pipelining if it is factorized into several short filters whose coefficients are in the form of the sum of signed powers-of-two terms. Such implementation reduces the hardware cost and lowers the power consumption significantly as it requires no multipliers. This paper presents a filter synthesis method that factorizes a long filter into several short filters and quantizes the coefficients of all short filters into signed powers-of-two values simultaneously using micro-genetic algorithm (/spl mu/GA). The proposed /spl mu/GA speeds up the optimization process greatly compared to conventional GA.

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First International Symposium on Control, Communications and Signal Processing, 2004.

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