Harsha Keerthan Samudrala, Dr Shaik A. Qadeer, Syed Azeemuddin, Zafar Khan
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引用次数: 8
摘要
在本文中,我们讨论了基于缩放旋转因子的新的基数-2十进制(DIT)快速傅立叶变换(FFT)算法的VLSI实现,该算法降低了算法复杂度。一些信号处理需要高性能FFT处理器,为了满足这些性能要求,处理器需要被流水线化和并行化。基于这种新的基数-2算法,采用了更少乘数的优化ASIC设计,并采用完整的并行和流水线架构实现了64点FFT的硬件实现。实现结果表明,与标准FFT体系结构相比,所提出的体系结构显著减少了13.74%的硬件面积和16%的功耗。设计单元的仿真在Xilinx ISE WebPack 13.1中完成,并使用Cadence Encounter RTL Compiler进行合成。
Parallel and Pipelined VLSI Implementation of the New Radix-2 DIT FFT Algorithm
In this paper we discuss the VLSI implementation of the new radix-2 Decimation In Time (DIT) Fast Fourier Transform (FFT) algorithm with reduced arithmetic complexity which is based on scaling the twiddle factor. Some signal processing require high performance FFT processors and to meet these performance requirements, the processor needs to be pipelined and parallelized. An optimized ASIC design is derived from this new radix-2 algorithm with fewer multipliers and adopted a complete parallel and pipelined architecture for hardware implementation of a 64 point FFT. The implementation results show that the proposed architecture significantly reduces the hardware area by 13.74 percent and power consumption by 16 percent when compared to the standard FFT architecture. Simulation of design units is done in Xilinx ISE WebPack 13.1 and synthesized using Cadence Encounter RTL Compiler.
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