Fully Systolic FFT Architecture for Giga-sample Applications
Journal of Signal Processing Systems(2009)
Abstract
We present a novel 4096 complex-point, fully systolic VLSI FFT architecture based on the combination of three consecutive radix-4 stages resulting in a 64-point FFT engine. The outcome of cascading these 64-point FFT engines is an improved architecture that efficiently processes large input data sets in real time. Using 64-point FFT engines reduces the buffering and the latency to one third of a fully unfolded radix-4 architecture, while the radix-4 schema simplifies the calculations within each engine. The proposed 4096 complex point architecture has been implemented on a FPGA achieving a post-route clock frequency of 200 MHz resulting in a sustained throughput of 4096 point/20.48 μs. It has also been implemented on a high performance 0.13 μm, 1P8M CMOS process achieving a worst-case (0.9 V, 125 C) post-route clock frequency of 604.5 MHz and a sustained throughput of 4096 point/3.89 μs while consuming 4.4 W. The architecture is extended to accomplish FFT computations of 16K, 64K and 256K complex points with 352, 256 and 188 MHz operating frequencies respectively.
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Key words
Fast Fourier transform (FFT),VLSI,FPGA,Radix-2,Radix-4,Real-time processing
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