Title :
Sampling Decision System in semiconductor manufacturing using Virtual Metrology
Author :
Kurz, Daniel ; DeLuca, Cristina ; Pilz, Jürgen
Author_Institution :
Infineon Technol. Austria, Alpen-Adria Univ. of Klagenfurt, Klagenfurt, Austria
Abstract :
In semiconductor manufacturing, metrology operations are so expensive and time-consuming that only a certain number of wafers are measured. For that reason, one is interested in developing Virtual Metrology (VM) methodologies predicting wafer fine metrology results in real-time and free of costs. However, currently used sampling designs do not take account of such information. In this paper, we present a sampling decision system (SDS) that relies on virtual metrology data suggesting an optimal strategy for measuring productive wafers. Considering control charts within a decision-theoretical framework, the expected value of measurement information is computed by means of Monte Carlo (MC) integration; this is a way to assess the informational gain resulting from a measurement. Optimal sampling decisions are obtained using a two-stage decision model. Extensions of the SDS consider bad wafer quality risk and fixed real metrology operations by cumulating past decision risks. A Bayesian conjugate Wishart model allows to update uncertainty of virtual measurements whenever a real measurement is available. The sampling decision system is extended to a set of virtual and real metrology data from the semiconductor industry. Wafer measurements are only performed when really needed.
Keywords :
Bayes methods; Monte Carlo methods; control charts; decision theory; measurement uncertainty; optimisation; quality management; risk management; sampling methods; semiconductor industry; semiconductor technology; virtual instrumentation; Bayesian conjugate Wishart model; MC integration; Monte Carlo integration; SDS; VM methodology; bad wafer quality risk; control charts; decision-theoretical framework; expected measurement information value; fixed real metrology operations; informational gain; optimal sampling decisions; optimal strategy; past decision risks; productive wafers; real-time prediction; sampling decision system; sampling designs; semiconductor industry; semiconductor manufacturing; two-stage decision model; virtual measurement uncertainty; virtual metrology; wafer fine metrology results; wafer measurements; Gain measurement; Integrated circuits; Loss measurement; Metrology; Semiconductor device measurement; Semiconductor device modeling; Vectors;
Conference_Titel :
Automation Science and Engineering (CASE), 2012 IEEE International Conference on
Conference_Location :
Seoul
Print_ISBN :
978-1-4673-0429-0
DOI :
10.1109/CoASE.2012.6386366
