DocumentCode
1491834
Title
Model-free estimation of defect clustering in integrated circuit fabrication
Author
Friedman, David J. ; Hansen, Mark H. ; Nair, Vijayan N. ; James, David A.
Author_Institution
Integral Inc., Cambridge, MA, USA
Volume
10
Issue
3
fYear
1997
fDate
8/1/1997 12:00:00 AM
Firstpage
344
Lastpage
359
Abstract
This paper describes a model-free method for estimating some yield metrics that are used to track integrated circuit fabrication processes. Our method uses binary probe test data at the wafer level to estimate the size, shape and location of large-area defects or clusters of defective chips. Unlike previous methods in the yield modeling literature, our approach makes extensive use of the location of failing chips to directly identify clusters. An important by product of this analysis is a decomposition of wafer yield that attributes defective chips to either large- or small-area defects. Simulation studies show that our procedure is superior to the time-honored windowing technique for achieving a similar breakdown. In addition, by directly estimating defect clusters, we can provide engineers with a greater understanding of the manufacturing process. It has been our experience that routine identification of the spatial signatures of clustered defects and associated root-cause analysis is a cost-effective approach to yield and process improvement
Keywords
integrated circuit testing; integrated circuit yield; probes; production testing; binary probe test data; defect clustering; integrated circuit fabrication; large-area defects; manufacturing process; model-free estimation; spatial signatures; wafer yield; yield metrics; Circuit testing; Electric breakdown; Fabrication; Integrated circuit modeling; Integrated circuit yield; Manufacturing processes; Probes; Semiconductor device modeling; Shape; Yield estimation;
fLanguage
English
Journal_Title
Semiconductor Manufacturing, IEEE Transactions on
Publisher
ieee
ISSN
0894-6507
Type
jour
DOI
10.1109/66.618208
Filename
618208
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