Title :
Getting More From the Semiconductor Test: Data Mining With Defect-Cluster Extraction
Author :
Ooi, Melanie Po-Leen ; Joo, Eric Kwang Joo ; Kuang, Ye Chow ; Demidenko, Serge ; Kleeman, Lindsay ; Chan, Chris Wei Keong
Author_Institution :
Monash Univ., Petaling Jaya, Malaysia
Abstract :
High-volume production data shows that dies, which failed probe test on a semiconductor wafer, have a tendency to form certain unique patterns, i.e., defect clusters. Identifying such clusters is one of the crucial steps toward improvement of the fabrication process and design for manufacturing. This paper proposes a new technique for defect-cluster identification that combines data mining with a defect-cluster extraction using a Segmentation, Detection, and Cluster-Extraction algorithm. It offers high defect-extraction accuracy, without any significant increase in test time and cost.
Keywords :
data mining; production engineering computing; semiconductor device testing; semiconductor industry; cluster-extraction algorithm; data mining; defect-cluster extraction; defect-cluster identification; defect-extraction accuracy; detection algorithm; dies; high-volume production data; segmentation algorithm; semiconductor test; semiconductor wafer; Clustering algorithms; Data mining; Machine learning algorithms; Manufacturing; Noise; Production; Data mining; defect-cluster extraction; probe testing; segmentation; semiconductor manufacturing;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2011.2122430
