P. Potipantong, P. Sirisuk, T. Wiangtong, A. Worapishet
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引用次数: 1
摘要
本文采用硬件/软件协同设计技术,提出了一种适用于正交频分复用(OFDM)系统的可扩展FFT处理器结构。该架构使用了一个位于硬件和软件处理元素上的基数-4蝴蝶节点。我们采用就地存储策略,使得蝴蝶的输入和输出可以存储在相同的存储位置,而不会发生冲突。内存被划分为4组用于流水线计算。为了演示协同设计概念,256点FFT/IFFT在Xilinx Virtex-II Pro FPGA中完成,该FPGA包含PowerPC处理器,其中硬件由VHDL建模,软件用c编写。所提出的架构在10.56 μ s内实现256点FFT,在2.16 μ s内实现64点FFT,在480 ns内实现16点FFT,使其适用于当今要求严格的OFDM应用
A Scalable FFT/IFFT Kernel for Modern Communication Systems using Codesign Approach
This paper presents a new architecture of scalable FFT processor using hardware/software codesign technique for orthogonal frequency division multiplexing (OFDM) systems. The architecture uses a radix-4 butterfly node located on both hardware and software processing elements. We employ an in-place memory strategy, resulting that the butterfly inputs and outputs can be stored at the same memory location without conflict. The memory is partitioned into 4 banks for pipelined computation. To demonstrate the codesign concept, 256-point FFT/IFFT is completed in a Xilinx Virtex-II Pro FPGA that contains PowerPC processor where the hardware is modeled by VHDL and the software is written in C. The proposed architecture achieves 256-point FFT in 10.56 mus, 64-point in 2.16 mus and 16-point in 480 ns making it viable for today's demanding OFDM applications
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