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True sparse PCA for reducing the number of essential sensors in virtual metrology

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Listed:
  • Yifan Xie
  • Tianhui Wang
  • Young-Seon Jeong
  • Ali Tosyali
  • Myong K. Jeong

Abstract

In the semiconductor industry, virtual metrology (VM) is a cost-effective and efficient technique for monitoring the processes from one wafer to another. This technique is implemented by generating a predictive model that uses real-time data from equipment sensors in conjunction with measured wafer quality characteristics. Before establishing a prediction model for the VM system, appropriate selection of relevant input variables should be performed to maintain the efficiency of subsequent analyses considering the large dimensionality of the sensor data inputs. However, wafer production processes usually employ multiple sensors, which leads to cost escalations. Herein, we propose a variant of the sparse principal component analysis (PCA) called true sparse PCA (TSPCA). The proposed method uses a small number of input variables in the first few principal components. The main contribution of the proposed TSPCA is reducing the number of essential sensors. Our experimental results demonstrate that compared to the existing sparse PCA methods, the proposed approach can reduce the number of sensors required while explaining an approximately equivalent amount of variance.

Suggested Citation

  • Yifan Xie & Tianhui Wang & Young-Seon Jeong & Ali Tosyali & Myong K. Jeong, 2024. "True sparse PCA for reducing the number of essential sensors in virtual metrology," International Journal of Production Research, Taylor & Francis Journals, vol. 62(6), pages 2142-2157, March.
  • Handle: RePEc:taf:tprsxx:v:62:y:2024:i:6:p:2142-2157
    DOI: 10.1080/00207543.2023.2217282
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