Title :
The use and evaluation of yield models in integrated circuit manufacturing
Author :
Cunningham, James A.
Author_Institution :
Cunningham Associates, Saratoga, CA, USA
fDate :
5/1/1990 12:00:00 AM
Abstract :
The development and refinement of net-die-per-wafer yield models during the past 25 years are reviewed, and the models are tested for accuracy by comparison with actual yield data from seven separate chip companies. Depending on chip size, the more accurate models are the Poisson and the negative binomial. Several models for line yields in wafer fabrication are also covered. For predicting yields of larger-die-area very large-scale integration, the negative binomial model is the more accurate, but its use many require experimental determination of alpha, sometimes called the cluster parameter, versus chip area for the particular process and factory environment of interest. How an Insystems holographic wafer inspection machine can aid this process is described. Financial payback calculations for cleaner processing machines and experience curve effects on yields are also discussed
Keywords :
VLSI; economics; inspection; integrated circuit manufacture; quality control; statistical analysis; Insystems holographic wafer inspection machine; Poisson model; VLSI; cluster parameter; financial payback calculations; integrated circuit manufacturing; negative binomial model; net-die-per-wafer; semiconductor processing; very large-scale integration; wafer fabrication; yield models; Circuit testing; Fabrication; Holography; Inspection; Integrated circuit modeling; Integrated circuit yield; Large scale integration; Predictive models; Production facilities; Semiconductor device modeling;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
