软件无线电系统中三种可重构FFT核的实现与性能评价

2017 International Conference on Electrical Engineering (ICEE) Pub Date : 2017-03-02 DOI:10.1109/ICEE.2017.7893442

Jameel Ahmad, Waseem Iqbal, Muhammad Asim Butt

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引用次数: 1

摘要

快速傅里叶变换(FFT)是一种计算效率很高的将时域函数转换为频域函数的算法。所有3G和4G无线技术都使用OFDM, FFT是收发器环路的一个组成部分。本文设计了三种FFT架构，它们都属于Cooley-Tukey类算法。这些FFT设计是针对OFDM应用的，特别是在未来几代软件定义无线电(SDR)系统中。FFT以16位精度对64点复值输入样本进行处理。每个核心都针对面积、功率和速度的组合进行了优化。该设计针对部分可重构的FPGA平台，如Xilinx Virtex-4或更高版本。在Model Sim中对FFT核进行了仿真，并用Xilinx ISE软件进行了合成。内核可以很容易地下载到目标FPGA板上，以检查运行时的可配置性。这些核心的性能评估表明，它们运行在时钟频率约80MHz。

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Implementation and performance evaluation of three reconfigurable FFT cores for application in software defined radio system

Fast Fourier Transform (FFT) is computationally an efficient algorithm that transforms a function in time domain to function in frequency domain. All 3G and 4G wireless technologies use OFDM and FFT is an integral block of transceiver loop. In this paper three FFT architectures are designed that fall within the Cooley-Tukey class of algorithms. These FFT designs are targeted for OFDM applications especially in future generations of Software Defined Radio (SDR) systems. The FFT is performed on 64-point complex valued input samples with 16-bit precision. Each core is optimized for a combination of area, power, and speed. The design is targeted for a partially reconfigurable FPGA platform such as Xilinx Virtex-4 or above. The FFT cores have been simulated in Model Sim and synthesized using Xilinx ISE software. The cores can be readily downloaded on to target FPGA board to check for run time configurability. The performance evaluation of these cores show that they run at clock frequency of about 80MHz.

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2017 International Conference on Electrical Engineering (ICEE)

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