Title :
The effect of defect clustering on WASP device yields
Author :
Peacock, Chris ; Bolouri, Hamid
Author_Institution :
Eng. Res. & Dev. Centre, Hertfordshire Univ., Hatfield, UK
Abstract :
Monolithic wafer scale devices have many advantages over hybrid wafer scale devices, but continue to attract far less commercial interest. This is mainly due to the overheads associated with incorporating defect tolerance and re-configuration circuitry into large and complex designs. The WASP series of monolithic wafer scale massively parallel computers have overcome many of these obstacles by adopting a hierarchical defect tolerance strategy. The paper presents an analysis of the effect of defect clustering on the target WASP device yields. The yield model uses extrapolated parameters from earlier WASP devices. and assumes a 0.7 μm process. The results show that the target WASP yield predictions are generally very high, and largely independent of defect clustering. However, for high defect densities and high harvest requirements, the predicted yields vary considerably depending on the degree of defect clustering
Keywords :
VLSI; fault tolerant computing; microprocessor chips; parallel architectures; 0.7 micron; WASP device yields; WASP series; WSI associative string processor; defect clustering; defect densities; harvest requirements; hierarchical defect tolerance strategy; re-configuration circuitry; wafer scale devices; yield model; Circuits; Concurrent computing; Costs; Poisson equations; Probability; Research and development; Semiconductor device modeling; Wafer scale integration; Yield estimation;
Conference_Titel :
Wafer Scale Integration, 1994. Proceedings., Sixth Annual IEEE International Conference on
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-1850-1
DOI :
10.1109/ICWSI.1994.291261
