Title :
An automatic wafer inspection system using pipelined image processing techniques
Author :
Yoda, Hidehiko ; Ohuchi, Y. ; Taniguchi, Yuzo ; Ejiri, Masakazu
Author_Institution :
Hitachi Ltd., Tokyo, Japan
fDate :
1/1/1988 12:00:00 AM
Abstract :
An automatic wafer pattern inspection system has been developed that can detect defective patterns 6 μm or larger in multilayered wafer patterns at a speed 30 times faster than that of a human inspector. The false-alarm rate is less than 0.5 occurrences/chip. This performance is achieved mainly by the use of a special comparison method between two adjacent patterns obtained through a single optical setup, and also by the use of digital design pattern data (CAD data). The main functions of the design pattern data are to specify the inspection area, to designate optimum parameters for inspection, and to separate defective portions into different layers, thereby facilitating the classification of the defects. All image processing is performed in one pass by a high-speed pipeline-structured image processor that can analyze an input image signal at a 7 MHz video rate
Keywords :
circuit analysis computing; computer vision; computerised pattern recognition; computerised picture processing; fault location; inspection; integrated circuit testing; pipeline processing; 6 micron; 7 MHz; CAD data; automatic wafer inspection system; comparison method; computer vision; defect classification; defect detection; defective patterns; digital design pattern data; false-alarm rate; multilayered wafer patterns; pattern recognition; picture processing; pipelined image processing techniques; Design automation; High speed optical techniques; Humans; Image analysis; Image processing; Inspection; Optical design; Performance analysis; Signal analysis; Signal processing;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
