Title :
Design and implementation of a 1024-point high-speed FFT processor based on the FPGA
Author :
Sheng Zhou ; Xiaochun Wang ; Jianjun Ji ; Yanqun Wang
Author_Institution :
Inst. of Biomed. Eng., Tianjin, China
Abstract :
To design a Fast Fourier Transform (FFT) processor to meet the needs for high-speed and real-time signal processing. A 1024-point, 32-bit, fixed, complex FFT processor is designed based on a field programmable gate array (FPGA) by using the radix-2 decimation in frequency (DIF) algorithm and the pipeline structure in the butterfly module and the ping-pone operation in data storage unit. When the primary clock is 100 MHz, the 1024-point FFT calculation takes about 62.95 us. The processor is fast enough for processing the high-speed and real time signals. The result provides reference values that theoretical study of the FFT algorithm can be applied into the adaptive dynamic filter of an ultrasonic diagnostic system and an ultrasonic Doppler flow measurement system.
Keywords :
adaptive filters; fast Fourier transforms; field programmable gate arrays; DIF algorithm; FPGA; adaptive dynamic filter; butterfly module; data storage unit; fast Fourier transform processor; field programmable gate array; high-speed FFT processor; ping-pone operation; radix-2 decimation in frequency algorithm; real-time signal processing; ultrasonic Doppler flow measurement system; ultrasonic diagnostic system; Algorithm design and analysis; Field programmable gate arrays; Mathematical model; Radiation detectors; Random access memory; Signal processing; Signal processing algorithms; 1024-point FFT; Butterfly; Ping-pong operation; Verilog HDL; field programmable gate array;
Conference_Titel :
Image and Signal Processing (CISP), 2013 6th International Congress on
Conference_Location :
Hangzhou
Print_ISBN :
978-1-4799-2763-0
DOI :
10.1109/CISP.2013.6745222
