Title :
Design of a High-speed FPGA-based 32-bit Floating-point FFT Processor
Author :
Mou, Shengmei ; Yang, Xiaodong
Author_Institution :
Nat. Univ. of Defense Technol., Changsha
fDate :
July 30 2007-Aug. 1 2007
Abstract :
In this paper, we design and implement a 32-bit IEEE 754 single precision floating-point FFT processor. Usually, limited by long pipeline latency of floating-point operations and multi-port RAM access the throughput of FFT processors can only reach approximately one result per cycle. Through making some improvements on the design of butterfly unit and reorganization of the RAM access, almost a throughput of 2 complex results per cycle can be gotten and twice performance as traditional FFT processors can be achieved. As to a 1024-point FFT transform, it can be finished in (512 + 10)*10=5220 cycles.
Keywords :
adders; carry logic; digital signal processing chips; fast Fourier transforms; field programmable gate arrays; floating point arithmetic; logic design; pipeline arithmetic; FPGA-based 32-bit floating-point FFT processor design; IEEE 754 single precision processor; carry save adder; digital signal processing; multiport RAM access; pipeline latency; radix-2 butterfly unit; Artificial intelligence; Costs; Delay; Digital signal processing; Discrete Fourier transforms; Equations; Pipelines; Read-write memory; Software engineering; Throughput;
Conference_Titel :
Software Engineering, Artificial Intelligence, Networking, and Parallel/Distributed Computing, 2007. SNPD 2007. Eighth ACIS International Conference on
Conference_Location :
Qingdao
Print_ISBN :
978-0-7695-2909-7
DOI :
10.1109/SNPD.2007.46
