Title :
Defect cluster analysis for wafer-scale integration
Author :
Pukite, Paul R. ; Berman, Claude L.
Author_Institution :
Daina, Columbia Heights, MN, USA
fDate :
8/1/1990 12:00:00 AM
Abstract :
A methodology for characterizing spatial defect distributions is presented. A correlation function approach providing spatial information not measurable with classical methods such as yield-versus-area curves is described. This additional information includes the spatial extent of defect clustering, the strength of clustering, and uncertainty in clustering magnitude. The correlation function methods are applicable to experimentally determined defect maps or to simulation results based on different assumptions concerning the spatial distribution of defects. It is also shown that the approach is useful in predicting yield for redundant circuit configurations when experimental data pertaining to the spatial distribution of defects are available. This type of yield prediction capability is important for judging the feasibility of various redundancy implementations, including wafer scale integration
Keywords :
VLSI; integrated circuit manufacture; integrated circuit technology; redundancy; WSI; characterizing spatial defect distributions; correlation function approach; correlation function methods; defect cluster analysis; defect clustering; predicting yield; redundant circuit configurations; spatial distribution of defects; strength of clustering; uncertainty in clustering magnitude; wafer-scale integration; yield prediction; Circuit faults; Costs; Fabrication; Fault tolerance; Helium; Integrated circuit yield; Predictive models; Redundancy; Very large scale integration; Wafer scale integration;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
