A new FFT architecture and chip design for motion compensation based on phase correlation

Author

Hui, Colin C W ; Ding, Tiong Jiu ; McCanny, John V. ; Woods, Roger F.

Author_Institution

Queen´´s Univ., Belfast, UK

fYear

1996

Firstpage

83

Lastpage

92

Abstract

Details of a new low power FFT processor for use in digital television applications are presented. This has been fabricated using a 0.6 μm CMOS technology and can perform a 64 point complex forward or inverse FFT on real-time video at up to 18 Megasamples per second. It comprises 0.5 million transistors in a die area of 7.8×8 mm² and dissipates 1 W. Its performance, in terms of computational rate per area per watt, is significantly higher than previously reported devices, leading to a cost-effective silicon solution for high quality video processing applications. This is the result of using a novel VLSI architecture which has been derived from a first principles factorisation of the DFT matrix and tailored to a direct silicon implementation

Keywords

CMOS integrated circuits; VLSI; digital television; fast Fourier transforms; image processing; motion compensation; 0.6 micron; CMOS technology; DFT matrix; FFT architecture; VLSI architecture; chip design; digital television applications; direct silicon implementation; first principles factorisation; motion compensation; phase correlation; real-time video; CMOS technology; Chip scale packaging; Clocks; Digital TV; Image converters; Microelectronics; Motion compensation; Silicon; TV broadcasting; Very large scale integration;

fLanguage

English

Publisher

ieee

Conference_Titel

Application Specific Systems, Architectures and Processors, 1996. ASAP 96. Proceedings of International Conference on

Conference_Location

Chicago, IL

ISSN

2160-0511

Print_ISBN

0-8186-7542-X

Type

conf

DOI

10.1109/ASAP.1996.542804

Filename

542804