DocumentCode
2545386
Title
Using defect density modelling to drive the optimisation of circuit layout, maximising yield
Author
Baxter, Morna ; Muir, Dave
fYear
1995
fDate
13-15 Nov 1995
Firstpage
164
Lastpage
172
Abstract
With integrated circuit [IC] market requirements driving the increase in diversity of product families and technologies, modelling of defect density within wafer fabrication is increasing in complexity. The exponential growth in the number of applications of the IC has meant that the requirement of each wafer fabrication facility has moved from running single volume products to being able to cope with running up to hundreds of different products at one time. Where it is possible to retain one volume product per wafer fabrication site, simpler defect density modelling may be representative models or indicators of defect density. When multiple process flows, product families and technologies are manufactured at one time, using one model was found to be unviable. By developing wafer fabrication site specific models, the effects of inline defectivity and design layout were found to consistently relate to yield. Product family variations also showed relationships with yield, where memory size, complexity and module choice could be optimised to maximise yield of a new product
Keywords
circuit optimisation; integrated circuit layout; integrated circuit modelling; integrated circuit yield; monolithic integrated circuits; circuit layout optimisation; defect density modelling; fabrication facility; inline defectivity; memory size; module choice; multiple process flows; product families; site specific models; wafer fabrication; yield maximisation; Collision mitigation; Inspection; Integrated circuit modeling; Integrated circuit testing; Monitoring; Pareto optimization; Production facilities;
fLanguage
English
Publisher
ieee
Conference_Titel
Defect and Fault Tolerance in VLSI Systems, 1995. Proceedings., 1995 IEEE International Workshop on,
Conference_Location
Lafayette, LA
ISSN
1550-5774
Print_ISBN
0-8186-7107-6
Type
conf
DOI
10.1109/DFTVS.1995.476949
Filename
476949
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