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Advanced semiconductor fabrication process control using dual filter exponentially weighted moving average

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Abstract

Semiconductor industry needs to meet high standards to ensure survival and success in the 21st century. Rising expectations from the customers are demanding the semiconductor industry to manufacture products with both accuracy and precision. To comply with the strict demands, an effective control method for semiconductor manufacturing is introduced. The process environment is afflicted by process disturbances. Different characteristics of the process disturbances require the control method to be able to respond accordingly. This study utilizes two separate exponentially weighted moving average (EWMA) filters simultaneously to improve the performance of the control method. By utilizing dual filters, the influence of the white noise is reduced and the accurate process control is made possible. The proposed methodology is evaluated through simulation in comparison with two other control methods.

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References

  • Bassetto S., Siadat A. (2009) Operational methods for improving manufacturing control plans: Case study in a semiconductor industry. Journal of intelligent manufacturing 20(1): 55–65

    Article  Google Scholar 

  • Bode C. A., Ko B. S., Edgar T. F. (2004) Run-to-run control and performance monitoring of overlay in semiconductor manufacturing. Control Engineering Practice 12(7): 893–900

    Article  Google Scholar 

  • Boning, D., Moyne, W., Smith, T., Moyne, J., & Hurwitz, A. (1995). Practical Issues in Run Process Control. In Proceedings of the sixth annual SEMI/IEEE ASMC, Boston.

  • Box G. E. P., Jenkins G. M. (1963) Future contributions to adaptive quality control: Simultaneous estimation of dynamics: Nonzero Costs. Bulletin of the International Statistical Institute 34: 943–974

    Google Scholar 

  • Box G. E. P., Luceño S. (1997) Statistical control by monitoring and feedback adjustment. Wiley-Interscience, New York

    Google Scholar 

  • Butler S. W., Stefani J. A. (1994) Supervisory run-to-run control of a polysilicon gate etch using in situ ellipsometry. IEEE Transactions on Semiconductor Manufacturing 7(2): 193–201

    Article  Google Scholar 

  • Chiu C.-C., Shao Y. E., Lee T.-S. (2003) Identification of process disturbance using SPC/EPC and neural networks. Journal of intelligent manufacturing 14(3): 379–388

    Article  Google Scholar 

  • Del Castillo E., Hurwitz A. (1997) Run-to-run process control; literature review and extensions. Journal of Quality Technology 29(2): 184–185

    Google Scholar 

  • Del Castillo E., Yeh J. Y. (1998) An adaptive run-to-run optimizing controller for linear and nonlinear semiconductor processes. IEEE Transactions on Semi-conductor Manufacturing 11(2): 285–295

    Article  Google Scholar 

  • Ingolfsson A., Sachs E. (1993) Stability and sensitivity of an EWMA controller. Journal of Quality Technology 25: 271–287

    Google Scholar 

  • Juran J. M., Gryna F. M. Jr. (1980) Quality planning and analysis (2nd ed.). McGraw-Hill, New York

    Google Scholar 

  • Kane V. E. (1986) Process capability indices. Journal of Quality Technology 18(1): 41–52

    Google Scholar 

  • Kymal C., Patiyasevi P. (2006) Semiconductor quality initiatives: How to maintain quality in this fast-changing industry. Quality Digest 26(4): 43–48

    Google Scholar 

  • Laidler D. W., Leray P., Crow D. A., Robert K. E. (2003) Knowledge-based APC methodology for overlay control. Proceedings of SPIE-the International Society for Optical Engineering 5044: 32–43

    Google Scholar 

  • Liao L. D., Chao P. C. P., Lin Y. J., Miaou S. G., Chang M., Huang J. S. (2009) Precision micro-/nano-machining in a scanning electron microscope by run-to-run control based on image feedbacks. Microelectronic engineering 86(4/6): 1162–1168

    Article  Google Scholar 

  • Moreau W. M. (1998) Semiconductor lithography: Principles, practices, and materials. Plenum Press, New York

    Google Scholar 

  • Moyne J., Del Castillo E., Hurwitz A. M. (2001) Run-to-run control in semiconductor manufacturing. CRC Press LLC, New York

    Google Scholar 

  • Qin S. J., Cherry G., Good R. (2006) Semiconductor manufacturing process control and monitoring: A fab-wide framework. Journal of process control 16(3): 179–191

    Article  Google Scholar 

  • Sachs E., Guo R., Ha S., Hu A. (1991) Process control system for VLSI fabrication. IEEE Transaction on Semiconductor Manufacturing 4(2): 133–144

    Article  Google Scholar 

  • Sachs E., Hu A., Ingolfsson A. (1995) Run to run process control: Combining SPC and feedback control. IEEE Transactions on Semiconductor Manufacturing 8(1): 26–43

    Article  Google Scholar 

  • Smith T., Boning D. (1997) Self-tuning EWMA controller utilizing artificial neural network function approximation techniques. IEEE Transactions of Components, Packaging and Manufacturing Technology 20(2): 121–132

    Article  Google Scholar 

  • Yang T., Chen C. M., Su C. T. (2003) Quality management practice in semiconductor manufacturing industries—Empirical studies in Taiwan. Integrated Manufacturing Systems 14(2): 153–159

    Article  Google Scholar 

  • Zorriassatine F., Tannock J. D. T. (1998) Review of neural networks for statistical process control. Journal of intelligent manufacturing 9(3): 209–224

    Article  Google Scholar 

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Authors and Affiliations

  1. Division of Information Management Engineering, Korea University, Seoul, 136-701, Korea

    Hyo-Heon Ko, Jun-Geol Baek & Sung-Shick Kim

  2. College of Business Administration, Kwangwoon University, Seoul, 139-701, Korea

    Jihyun Kim

  3. BISTel INC, 2F, Jeongpung Bldg, 1341-3, Seocho-dong, Seoul, 137-070, Korea

    Sang-Hoon Park

Authors
  1. Hyo-Heon Ko
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  2. Jihyun Kim
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  3. Sang-Hoon Park
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  4. Jun-Geol Baek
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  5. Sung-Shick Kim
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Correspondence to Jun-Geol Baek.

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Ko, HH., Kim, J., Park, SH. et al. Advanced semiconductor fabrication process control using dual filter exponentially weighted moving average. J Intell Manuf 23, 443–455 (2012). https://doi.org/10.1007/s10845-010-0383-6

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  • DOI: https://doi.org/10.1007/s10845-010-0383-6

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