Title :
Hardware efficient base-4 systolic architecture for computing the discrete Fourier transform
Abstract :
A systolic architecture is described for computing the 1-D discrete Fourier transform, which provides a significant reduction in array area by reducing the number of complex multipliers compared to previous systolic approaches. This design improvement is achieved by taking advantage of a more efficient computation scheme based on symmetries in the coefficient matrix and a radix-4 butterfly. Comparisons are provided with previous systolic architectures. Systolic architecture designs were created using a CAD tool able to find optimal non-uniform array designs starting from high-level coded descriptions of the algorithm.
Keywords :
VLSI; digital arithmetic; digital signal processing chips; discrete Fourier transforms; multiplying circuits; systolic arrays; CAD tool; array area; coefficient matrix; complex multipliers; computation scheme; discrete Fourier transform; hardware efficient base-4 systolic architecture; high-level coded descriptions; optimal nonuniform array designs; radix-4 butterfly; Algorithm design and analysis; Arithmetic; Computer architecture; Design automation; Digital signal processing; Discrete Fourier transforms; Fourier transforms; Hardware; Signal processing algorithms; Space exploration;
Conference_Titel :
Signal Processing Systems, 2002. (SIPS '02). IEEE Workshop on
Print_ISBN :
0-7803-7587-4
DOI :
10.1109/SIPS.2002.1049690
