Multi-objective optimization based on robust design for etching process parameters of hard disk drive slider fabrication

Multi-objective optimization based on robust design for etching process parameters of hard disk drive slider fabrication

This paper investigated the ability of the etched wall angle and depth controllable. The silicon plates with a patterned wet film photo resistance as a base substrate are used to demonstrate this research. The reactive ion etching (RIE) is main process for hard disk drive slider fabrication. This pr...

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Main Authors: Holimchayachotikul P., Limcharoen A., Leksakul K., Guizzi G.
Format: Conference or Workshop Item
Language:English
Published: 2014
Online Access:http://www.scopus.com/inward/record.url?eid=2-s2.0-79952607772&partnerID=40&md5=2a090bf380dee8f85db18145aaeaedc1
http://cmuir.cmu.ac.th/handle/6653943832/1481
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Institution: Chiang Mai University
Language: English
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spelling th-cmuir.6653943832-14812014-08-29T09:29:21Z Multi-objective optimization based on robust design for etching process parameters of hard disk drive slider fabrication Holimchayachotikul P. Limcharoen A. Leksakul K. Guizzi G. This paper investigated the ability of the etched wall angle and depth controllable. The silicon plates with a patterned wet film photo resistance as a base substrate are used to demonstrate this research. The reactive ion etching (RIE) is main process for hard disk drive slider fabrication. This process is much more complicated to set its parameters to the slider with the right customer specification. Therefore, this paper presents a hybrid response surface methodology (RSM) based on robust parameter design (RPD) concept and data mining (DM) for the multi-response optimization of a RIE process. The approach firstly, a designed experiment (DOE) was employed to collect the process data and to indicate the critical parameters of the process. Then, support vector regression (SVR) was used to establish the nonlinear multivariate relationships between process parameters and responses. Data obtained from DOE were used in the training process. Last but not least, the regression decision tree and the domain engineering knowledge were opted for the initial point of optimization algorithm as well. Finally, the reduced gradient search algorithm, a hill-climbing procedure and desirability function were adapted to the DOE Model. While grid search and desirability function were adapted to the SVR model to find the optimum parameter setting. The technique with the highest prominent accuracy performance was selected to build a RIE process model which is SVR. As a result, the optimum condition from the final model is effectively enabled to apply in the real production based on its confirmation experiment. 2014-08-29T09:29:21Z 2014-08-29T09:29:21Z 2010 Conference Paper 9.7896E+12 84106 http://www.scopus.com/inward/record.url?eid=2-s2.0-79952607772&partnerID=40&md5=2a090bf380dee8f85db18145aaeaedc1 http://cmuir.cmu.ac.th/handle/6653943832/1481 English
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
language English
description This paper investigated the ability of the etched wall angle and depth controllable. The silicon plates with a patterned wet film photo resistance as a base substrate are used to demonstrate this research. The reactive ion etching (RIE) is main process for hard disk drive slider fabrication. This process is much more complicated to set its parameters to the slider with the right customer specification. Therefore, this paper presents a hybrid response surface methodology (RSM) based on robust parameter design (RPD) concept and data mining (DM) for the multi-response optimization of a RIE process. The approach firstly, a designed experiment (DOE) was employed to collect the process data and to indicate the critical parameters of the process. Then, support vector regression (SVR) was used to establish the nonlinear multivariate relationships between process parameters and responses. Data obtained from DOE were used in the training process. Last but not least, the regression decision tree and the domain engineering knowledge were opted for the initial point of optimization algorithm as well. Finally, the reduced gradient search algorithm, a hill-climbing procedure and desirability function were adapted to the DOE Model. While grid search and desirability function were adapted to the SVR model to find the optimum parameter setting. The technique with the highest prominent accuracy performance was selected to build a RIE process model which is SVR. As a result, the optimum condition from the final model is effectively enabled to apply in the real production based on its confirmation experiment.
format Conference or Workshop Item
author Holimchayachotikul P.
Limcharoen A.
Leksakul K.
Guizzi G.
spellingShingle Holimchayachotikul P.
Limcharoen A.
Leksakul K.
Guizzi G.
Multi-objective optimization based on robust design for etching process parameters of hard disk drive slider fabrication
author_facet Holimchayachotikul P.
Limcharoen A.
Leksakul K.
Guizzi G.
author_sort Holimchayachotikul P.
title Multi-objective optimization based on robust design for etching process parameters of hard disk drive slider fabrication
title_short Multi-objective optimization based on robust design for etching process parameters of hard disk drive slider fabrication
title_full Multi-objective optimization based on robust design for etching process parameters of hard disk drive slider fabrication
title_fullStr Multi-objective optimization based on robust design for etching process parameters of hard disk drive slider fabrication
title_full_unstemmed Multi-objective optimization based on robust design for etching process parameters of hard disk drive slider fabrication
title_sort multi-objective optimization based on robust design for etching process parameters of hard disk drive slider fabrication
publishDate 2014
url http://www.scopus.com/inward/record.url?eid=2-s2.0-79952607772&partnerID=40&md5=2a090bf380dee8f85db18145aaeaedc1
http://cmuir.cmu.ac.th/handle/6653943832/1481
_version_ 1681419678596988928

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