Title :
Run-to-run overlay control of steppers in semiconductor manufacturing systems based on history data analysis and neural network modeling
Author :
Park, Seong-Jin ; Lee, Moon-Sang ; Shin, Sung-Young ; Cho, Kwang-Hyun ; Lim, Jong-Tae ; Cho, Bong-Su ; Jei, Young-Ho ; Kim, Myung-Kil ; Park, Chan-Hoon
Author_Institution :
Dept. of Electr. & Comput. Eng., Ajou Univ., Suwon, South Korea
Abstract :
This paper presents a new run-to-run control scheme to reduce overlay misalignment errors in steppers and demonstrates the feasibility of the scheme by real-time experimental tests. The overlay misalignment error mainly depends on two factors: one is the internal dynamics of photo processes and steppers and the other is the process history of lots, such as base equipment and reticles. Based on these observations, a new control scheme was designed to find the stepper inputs minimizing the misalignment errors based on history data analysis and neural network models. Moreover, we demonstrated that the proposed control scheme reduces the spec-out ratios as well as the number of engagements of the send-ahead wafer process, which thereby results in the increase of product yield in semiconductor manufacturing.
Keywords :
data analysis; errors; neural nets; optimised production technology; photolithography; process control; semiconductor device manufacture; semiconductor process modelling; electron device manufacture; history data analysis; neural network modeling; overlay misalignment error reduction; photolithography; process control; run-to-run overlay control; semiconductor manufacturing systems; semiconductor process modeling; steppers; Chemical processes; Data analysis; Error correction; History; Intelligent networks; Manufacturing processes; Manufacturing systems; Neural networks; Planarization; Semiconductor device modeling; History data; neural networks; overlay control; photolithography; steppers;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
DOI :
10.1109/TSM.2005.858530
