Radix-4 FFT的新变种

2016 Thirteenth International Conference on Wireless and Optical Communications Networks (WOCN) Pub Date : 2016-07-01 DOI:10.1109/WOCN.2016.7759873

Mohammed Zafar Ali Khan, Dr Shaik A. Qadeer

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引用次数: 4

摘要

Rader和Brenner的“实因子”FFT可以应用于Radix-4 FFT以节省乘法计数。然而，反过来，加法计数的增加导致总翻牌计数的增加。为此，本文提出了两个层次的节约思路。首先是对Rader和Brenner的Radix-4的“实因子”FFT的轻微修改，这不仅减少了乘法，而且使总翻牌计数等于标准Radix-4 FFT。第二种是对twidle Factors(TF)进行缩放操作，类似于Frigo提出的分割基数的Tangent FFT，使净计算复杂度达到4Nlog2N的数量级，其中N为FFT的大小。因此，复杂度顺序与标准分割基数FFT相同。

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 new variant of Radix-4 FFT

Rader abd Brenner's `real-factor' FFT can be applied to Radix-4 FFT to fetch saving in the multiplication counts. However in turn the number of addition count increases which results in increase in total flop count. For this in this paper two levels of saving ideas are proposed. First is a slight modification to Rader and Brenner's `real-factor' FFT for Radix-4, which not only reduces the multiplication but also makes the total flop count equals to standard Radix-4 FFT. Second is to apply the scaling operation to the Twidlle Factors(TF) similar to Tangent FFT like one proposed by Frigo for split radix so that the net computational complexity is of the order of 4Nlog2N computation, where N is the size of FFT. As such the complexity order is same as Standard Split Radix FFT.

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2016 Thirteenth International Conference on Wireless and Optical Communications Networks (WOCN)

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