Process models and network complexity

A neural network is used to model a plasma etching system. The network is trained from a large database generated from actual CMOS production runs. One aspect of this model is described which predicts the amount of over-etching into the underlying oxide during silicide gate patterning. Comparing net...

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Bibliographic Details
Main Authors: Rietman, E.A., Frye, R.C., Lory, E.R.
Format: Conference Proceeding
Language:English
Subjects:
Complex networks
Etching
Neural networks
Plasma applications
Predictive models
Production
Semiconductor device modeling
Silicides
Training data
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Summary:A neural network is used to model a plasma etching system. The network is trained from a large database generated from actual CMOS production runs. One aspect of this model is described which predicts the amount of over-etching into the underlying oxide during silicide gate patterning. Comparing networks of varying complexity, it is found that large, complex networks, which perform better on the task of learning the training data, do not necessarily perform as well on verification. The neural network model is used to extract information regarding the relative influence of various process variables and signatures in the etching process. For such procedures, small, simple networks often prove to be better and more accurate.< >
DOI:10.1109/ICNN.1993.298739