ASIC design for real-time reconfigurable FFT processor

Hong Xing Wan; He Chen; Yue Qiu Han

ASIC design for real-time reconfigurable FFT processor

Hong Xing Wan^*, He Chen, Yue Qiu Han

^*Corresponding author for this work

School of Information and Electronics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

A complex data fast Fourier transforms (FFT) processor is proposed. This FFT processor can be reconfigured as a 4, 16, 64, 256 or 1024 points computation. Radix-4 pipelined architecture is adopted for 16 and 64 points computation. Two-dimensional architecture is adopted for 256 and 1024 points computation. Block-floating point algorithm is adopt. The ASIC design is synthesized, placed and routed using Synopsys with SMIC CMOS 0.18 μm library. When the processor operates continuously at 100 MHz, it can calculate the first 1024 complex points FFT in 24.8 μs, and then get 1024 results in each 10.24 μs. The chip has been used in a kind of wide band digital receiver.

Original language	English
Pages (from-to)	342-344+348
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	26
Issue number	4
Publication status	Published - Apr 2006

Keywords

Fast Fourier transform
Pipelined architecture
Reconfigurable

Cite this

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abstract = "A complex data fast Fourier transforms (FFT) processor is proposed. This FFT processor can be reconfigured as a 4, 16, 64, 256 or 1024 points computation. Radix-4 pipelined architecture is adopted for 16 and 64 points computation. Two-dimensional architecture is adopted for 256 and 1024 points computation. Block-floating point algorithm is adopt. The ASIC design is synthesized, placed and routed using Synopsys with SMIC CMOS 0.18 μm library. When the processor operates continuously at 100 MHz, it can calculate the first 1024 complex points FFT in 24.8 μs, and then get 1024 results in each 10.24 μs. The chip has been used in a kind of wide band digital receiver.",

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author = "Wan, {Hong Xing} and He Chen and Han, {Yue Qiu}",

year = "2006",

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AU - Wan, Hong Xing

AU - Chen, He

AU - Han, Yue Qiu

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N2 - A complex data fast Fourier transforms (FFT) processor is proposed. This FFT processor can be reconfigured as a 4, 16, 64, 256 or 1024 points computation. Radix-4 pipelined architecture is adopted for 16 and 64 points computation. Two-dimensional architecture is adopted for 256 and 1024 points computation. Block-floating point algorithm is adopt. The ASIC design is synthesized, placed and routed using Synopsys with SMIC CMOS 0.18 μm library. When the processor operates continuously at 100 MHz, it can calculate the first 1024 complex points FFT in 24.8 μs, and then get 1024 results in each 10.24 μs. The chip has been used in a kind of wide band digital receiver.

AB - A complex data fast Fourier transforms (FFT) processor is proposed. This FFT processor can be reconfigured as a 4, 16, 64, 256 or 1024 points computation. Radix-4 pipelined architecture is adopted for 16 and 64 points computation. Two-dimensional architecture is adopted for 256 and 1024 points computation. Block-floating point algorithm is adopt. The ASIC design is synthesized, placed and routed using Synopsys with SMIC CMOS 0.18 μm library. When the processor operates continuously at 100 MHz, it can calculate the first 1024 complex points FFT in 24.8 μs, and then get 1024 results in each 10.24 μs. The chip has been used in a kind of wide band digital receiver.

KW - Fast Fourier transform

KW - Pipelined architecture

KW - Reconfigurable

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ASIC design for real-time reconfigurable FFT processor

Abstract

Keywords

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