Ma, Beibei (2009) Unsupervised Feature Extraction Techniques for Plasma Semiconductor Etch Processes. PhD thesis, National University of Ireland Maynooth.
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Abstract
As feature sizes on semiconductor chips continue to shrink plasma etching is becoming
a more and more critical process in achieving low cost high-volume manufacturing.
Due to the highly complex physics of plasma and chemical reactions between plasma
species, control of plasma etch processes is one of the most di±cult challenges facing the
integrated circuit industry. This is largely due to the di±culty with monitoring plasmas.
Optical Emission Spectroscopy (OES) technology can be used to produce rich plasma
chemical information in real time and is increasingly being considered in semiconductor
manufacturing for process monitoring and control of plasma etch processes. However,
OES data is complex and inherently highly redundant, necessitating the development
of advanced algorithms for e®ective feature extraction.
In this thesis, three new unsupervised feature extraction algorithms have been proposed
for OES data analysis and the algorithm properties have been explored with the aid
of both arti¯cial and industrial benchmark data sets. The ¯rst algorithm, AWSPCA
(AdaptiveWeighting Sparse Principal Component Analysis), is developed for dimension
reduction with respect to variations in the analysed variables. The algorithm gener-
ates sparse principle components while retaining orthogonality and grouping correlated
variables together. The second algorithm, MSC (Max Separation Clustering), is devel-
oped for clustering variables with distinctive patterns and providing e®ective pattern
representation by a small number of representative variables. The third algorithm,
SLHC (Single Linkage Hierarchical Clustering), is developed to achieve a complete and
detailed visualisation of the correlation between variables and across clusters in an OES
data set.
The developed algorithms open up opportunities for using OES data for accurate pro-
cess control applications. For example, MSC enables the selection of relevant OES
variables for better modeling and control of plasma etching processes. SLHC makes it
possible to understand and interpret patterns in OES spectra and how they relate to
the plasma chemistry. This in turns can help engineers to achieve an in-depth under-
standing of underlying plasma processes.
Item Type: | Thesis (PhD) |
---|---|
Keywords: | Feature Extraction Techniques; Plasma Semiconductor Etch Processes; |
Academic Unit: | Faculty of Science and Engineering > Electronic Engineering |
Item ID: | 4079 |
Depositing User: | IR eTheses |
Date Deposited: | 15 Jan 2013 11:19 |
URI: | https://mural.maynoothuniversity.ie/id/eprint/4079 |
Use Licence: | This item is available under a Creative Commons Attribution Non Commercial Share Alike Licence (CC BY-NC-SA). Details of this licence are available here |
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