Title :
A parameterized low power design for the variable-length discrete Fourier transform using dynamic pipelining
Author :
Jiun-In Guo ; Chien, Chih-Da ; Lin, Chien-Chang
Author_Institution :
Dept. of Comput. Sci. & Inf. Eng., Nat. Chung Cheng Univ., Taiwan
Abstract :
This paper presents a parameterized low power design for the one-dimensional discrete Fourier transform (DFT) of variable lengths. By combining the cyclic convolution formulation, block-based distributed arithmetic, dynamic pipeline technique, and Cooley-Tukey decomposition together, we have developed a parameterized hardware design for the DFT of variable lengths ranging from 256 to 4096 points and with different modes of performance, which facilitates the performance-driven design considerations in terms of power consumption and processing speeds. This feature is beneficial to developing a parameterized DFT intellectual property (IP) core for meeting the system requirements of different silicon-on-a-chip applications as compared with the existing fixed length DFT designs.
Keywords :
circuit simulation; digital arithmetic; digital signal processing chips; discrete Fourier transforms; integrated circuit design; logic design; logic simulation; low-power electronics; pipeline processing; 1D DFT; Cooley-Tukey decomposition; DFT performance modes; IP core; block-based distributed arithmetic; cyclic convolution; discrete Fourier transform; dynamic pipelining; intellectual property core; parameterized low power design; power consumption; processing speed; variable-length DFT; Arithmetic; Computer architecture; Computer science; Convolution; Costs; Discrete Fourier transforms; Hardware; Pipeline processing; Read only memory; Read-write memory;
Conference_Titel :
Circuits and Systems, 2003. ISCAS '03. Proceedings of the 2003 International Symposium on
Print_ISBN :
0-7803-7761-3
DOI :
10.1109/ISCAS.2003.1206259
