Title :
A data-flow processor for real-time low-level image processing
Author :
Quénot, Georges ; Zavidovique, Bertrand
Author_Institution :
Lab. Syst. de Perception, DGA/Establissement Tech. Central de l´´Armement, Arcueil, France
Abstract :
A chip featuring two coupled data-flow processors (DFPs) has been designed. It is to be mesh-connected into large processor arrays dedicated primarily to image processing. Each processor operates on 25 MBytes/s data-flows and performs up to 50 million 8- or 16-bit arithmetic operations per second. The chip has been processed in a 1 mu m CMOS technology. It includes 160000 transistors in a 84 mm/sup 2/ die size area, its clock is at 25 MHz and it is packaged in a 144-pin PGA package. Computations are performed on the fly on a data-flow that comes from a digital video camera. One physical operator is associated to each operation involved in the algorithm. An experimental data-flow system including eight processors in a 2*2*2 3D network has been built. Edge detection, row sums, column sums and histograms have been implemented on it at digital video speed.<>
Keywords :
CMOS integrated circuits; edge detection; image processing; parallel processing; 1 micron; 16 bits; 25 MB/s; 25 MHz; 3D network; 8 bits; CMOS technology; PGA package; arithmetic operations; column sums; data-flow processor; die size; digital video speed; edge detection; histograms; mesh connection; real-time low-level image processing; row sums; CMOS technology; Clocks; Computer architecture; Digital cameras; Dissolved gas analysis; Electronics packaging; Histograms; Image edge detection; Image processing; Pins;
Conference_Titel :
Euro ASIC '91
Conference_Location :
Paris, France
Print_ISBN :
0-8186-2185-0
DOI :
10.1109/EUASIC.1991.212887
