A silicon compiler for massively parallel image processing ASICs

Author

Boubekeur, Ahmed ; Saucier, Gabrièle

Author_Institution

Inst. Nat. Polytech. de Grenoble/CSI, France

fYear

1990

fDate

8-10 Oct 1990

Firstpage

519

Lastpage

524

Abstract

A silicon compiler design methodology for massively parallel architecture for image processing is introduced. It starts from an algorithmic description of the application in a language comparable to the GAPP NCR language (GAL) and generates an optimized circuit organized as a 2-D array of 1-b processing elements with minimized resources. The effectiveness of the approach is shown by two examples. The first is an ASIC (application-specific integrated circuit) for two basic mathematical morphology operations, dilation and erosion. The second is an ASIC for convolution. Both have been implemented in a double-aluminium 2-μm CMOS standard cell. In both cases the processor element has been found to be very effective. Considerable area savings have been achieved

Keywords

application specific integrated circuits; computerised picture processing; parallel architectures; program compilers; ASIC; GAL; image processing; massively parallel architecture; massively parallel image processing; optimized circuit; silicon compiler; Application specific integrated circuits; Compaction; Design methodology; High level languages; Image processing; Image recognition; Parallel architectures; Registers; Silicon compiler; Virtual reality;

fLanguage

English

Publisher

ieee

Conference_Titel

Frontiers of Massively Parallel Computation, 1990. Proceedings., 3rd Symposium on the

Conference_Location

College Park, MD

Print_ISBN

0-8186-2053-6

Type

conf

DOI

10.1109/FMPC.1990.89427

Filename

89427