Title :
Extracting Defect Density and Size Distributions from Product ICs
Author :
Nelson, Jeffrey E. ; Zanon, Thomas ; Brown, Jason G. ; Poku, Osei ; Blanton, R.D. ; Maly, Wojciech ; Benware, Brady ; Schuermyer, Chris
Author_Institution :
Carnegie Mellon Univ., Pittsburgh, PA
fDate :
5/1/2006 12:00:00 AM
Abstract :
Defect density and size distributions (DDSDs) are important parameters for characterizing spot defects in a process. This article addresses random spot defects, which affect all processes and currently require a heavy silicon investment to characterize and a new approach is proposed for characterizing such defects. This approach presents a system that overcomes the obstacle of silicon area overhead by using available wafer sort test results to measure critical-area yield model parameters with no additional silicon area. The results of the experiment on chips fabricated in silicon confirm the results of the simulation experiment that DDSDs measurement characterizes a process in ordinary digital circuits using only slow, structural test results from the product
Keywords :
elemental semiconductors; integrated circuit manufacture; integrated circuit testing; semiconductor process modelling; silicon; IC product; Si; critical-area yield model parameter; random spot defects; silicon investment; size distribution; wafer sort test; Costs; Data mining; Density measurement; Integrated circuit modeling; Logic testing; Manufacturing; Observability; Semiconductor device modeling; Silicon; Vehicles; defect density; product IC; size distributions;
Journal_Title :
Design & Test of Computers, IEEE
DOI :
10.1109/MDT.2006.117
