A new approach to pipeline FFT processor

A new VLSI architecture for a real-time pipeline FFT processor is proposed. A hardware-oriented radix-2/sup 2/ algorithm is derived by integrating a twiddle factor decomposition technique in the divide-and-conquer approach. The radix-2/sup 2/ algorithm has the same multiplicative complexity as the radix-4 algorithm, but retains the butterfly structure of the radix-2 algorithm. The single-path delay-feedback architecture is used to exploit the spatial regularity in the signal flow graph of the algorithm. For length-N DFT computation, the hardware requirement of the proposed architecture is minimal on both dominant components: log/sub 4/N-1 complexity multipliers and N-1 complexity data memory. The validity and efficiency of the architecture have been verified by simulation in the hardware description language VHDL.

[1]  E. V. Jones,et al.  A pipelined FFT processor for word-sequential data , 1989, IEEE Trans. Acoust. Speech Signal Process..

[2]  Earl E. Swartzlander,et al.  A radix-8 wafer scale FFT processor , 1992, J. VLSI Signal Process..

[3]  Alvin M. Despain,et al.  Very Fast Fourier Transform Algorithms Hardware for Implementation , 1979, IEEE Transactions on Computers.

[4]  C. K. Yuen,et al.  Theory and Application of Digital Signal Processing , 1978, IEEE Transactions on Systems, Man, and Cybernetics.

[5]  M. Alard,et al.  Principles of Modulation and Channel Coding for Digital Broadcasting for Mobile Receivers , 1987 .

[6]  Shousheng He,et al.  A new expandable 2D systolic array for DFT computation based on symbiosis of 1D arrays , 1995, Proceedings 1st International Conference on Algorithms and Architectures for Parallel Processing.

[7]  Alvin M. Despain,et al.  Fourier Transform Computers Using CORDIC Iterations , 1974, IEEE Transactions on Computers.

[8]  Thompson Fourier Transforms in VLSI , 1983, IEEE Transactions on Computers.

[9]  Alvin M. Despain,et al.  Pipeline and Parallel-Pipeline FFT Processors for VLSI Implementations , 1984, IEEE Transactions on Computers.

[10]  E.E. Swartzlander,et al.  A radix 4 delay commutator for fast Fourier transform processor implementation , 1984, IEEE Journal of Solid-State Circuits.

[11]  C. Joanblanq,et al.  A fast single-chip implementation of 8192 complex point FFT , 1995 .

[12]  Rainer Storn Radix-2 FFT-pipeline architecture with reduced noise-to-signal ratio , 1994 .