Title :
Critical area and critical levels calculation in IC yield modeling
Author :
Gandemer, Sophie ; Tremintin, Bernard C. ; Charlot, Jean-jacques
Author_Institution :
Matra-Harris-Semiconducteurs, Nantes, France
fDate :
2/1/1988 12:00:00 AM
Abstract :
A method is described for calculating critical coefficients to be included in an IC yield model for each masking step. The yield model is a function of the chip surface, the defect density, and a mathematical law. The method relies on partitioning total mask area at each level into area subcomponents sensitive to a minimal defect size using a design rule checker program. Defect density with respect to size has been experimentally determined, and the selected mathematical law corresponded to the data. Yield per level Yi was determined by applying the model to critical areas with their corresponding defect densities. The calculation of αi has been carried out using the equation Yi=1/(1+ATλα i) where Yi is the i-level yield, AT the total chip area, and λ the average value of defect density per level. It has been found that the resultant αi values are stable in a given environment whatever the technology, the average defect density value, and the design rules
Keywords :
circuit analysis computing; integrated circuit technology; masks; IC yield model; chip surface; critical areas; critical levels; defect density; design rule checker program; masking step; partitioning; Differential equations; Environmental economics; Fabrication; Integral equations; Integrated circuit modeling; Microscopy; Poisson equations; Semiconductor device modeling; Statistical distributions; Virtual manufacturing;
Journal_Title :
Electron Devices, IEEE Transactions on
