Title :
Yield modeling based on in-line scanner defect sizing and a circuit´s critical area
Author_Institution :
Adv. Micro Devices Inc., Sunnyvale, CA, USA
fDate :
2/1/1999 12:00:00 AM
Abstract :
Wafers containing a large number of defects on any layer should be discarded in order to avoid the cost associated with processing wafers that are unlikely to yield. Normally decisions about scrapping wafers are based on defect counts. However, including the size of defects can improve the accuracy of such dispositions. If the size of defects is taken into account, critical area provides an estimate of the kill ratio associated with defects of a given size, where the critical area of a layer of a circuit is computed from a circuit´s layout. In this paper, the accuracy of the sizing of defects by in-line scanners is analyzed. Then, the impact of defect sizing inaccuracy on estimates of layer yield is discussed, and a methodology to more accurately compute layer yield and kill ratios is presented, which calibrates for inaccuracy in defect sizing by in-line scanners
Keywords :
integrated circuit layout; integrated circuit measurement; integrated circuit yield; semiconductor process modelling; IC layout; circuit critical area; defect sizing inaccuracy; in-line scanner defect sizing; kill ratio; layer yield; scrapping; wafer defects; yield modeling; Contamination; Costs; Frequency; Integrated circuit layout; Integrated circuit manufacture; Integrated circuit yield; Microscopy; Random access memory; Semiconductor device modeling; Yield estimation;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
