Title :
Universal switching network: application to a WSI SIMD array
Author :
Boubekeur, A. ; Patry, J.L. ; Saucier, G. ; Trilhe, J.
Author_Institution :
INPG/CSI, Grenoble, France
Abstract :
A wafer scale SIMD (single-instruction multiple-data) array of 5760 elementary one-bit processors dedicated to image processing and called ELSA (European Large SIMD Array) has been implemented. At the end of manufacturing, a cartography of good elements on the wafer is established. This cartography is given as input to the reconfiguration software which defines the best array it can construct in terms of performance and size. The universal switching network allowing this reconfiguration at a chip level is described. The originality of the switching network is the ability to cope with hierarchical design and the ability to be controlled and programmed externally and serially from the I/O pads. The soft programming of the paths to construct the target 2-D array is examined. The switch programming is effectively done in spite of defective switches, which is possible because of the external control of the switching array. The tree and path covering methods have been implemented in C; both give a good solution in a short time
Keywords :
VLSI; computerised picture processing; multiprocessing systems; systolic arrays; ELSA; European Large SIMD Array; WSI SIMD array; best array; elementary one-bit processors; image processing; path covering methods; programmed externally; reconfiguration software; single-instruction multiple-data; soft programming; switch programming; target 2-D array; tree covering method; universal switching network; wafer scale SIMD; Clocks; Computer architecture; Flip-flops; Focusing; Image processing; Manufacturing; Microelectronics; Shift registers; Software performance; Wires;
Conference_Titel :
Wafer Scale Integration, 1991. Proceedings., [3rd] International Conference on
Conference_Location :
San Francisco, CA
Print_ISBN :
0-8186-9126-3
DOI :
10.1109/ICWSI.1991.151724