Depending on the big data analysis becomes important, yield prediction using data from the semiconductor process is essential. In general, yield prediction and analysis of the causes of the failure are closely related. The purpose of this study is to analyze pattern affects the final test results using a die map based clustering. Many researches have been conducted using die data from the semiconductor test process. However, analysis has limitation as the test data is less directly related to the final test results. Therefore, this study proposes a framework for analysis through clustering using more detailed data than existing die data. This study consists of three phases. In the first phase, die map is created through fail bit data in eac...
The International Technology Roadmap for Semiconductors (ITRS) identifies production test data as an...
This article is devoted to the initial phase of data analysis of failure data from process control s...
Thesis: M. Eng. in Advanced Manufacturing and Design, Massachusetts Institute of Technology, Departm...
Depending on the big data analysis becomes important, yield prediction using data from the semicondu...
Depending on the big data analysis becomes important, yield prediction using data from the semicondu...
The semiconductor manufacturing process involves long and complex activities, with intensive use of ...
The semiconductor manufacturing process involves long and complex activities, with intensive use of ...
Semiconductor manufacturing test has traditionally been seen as a simple task that segregates good D...
The yield management system is very important to produce high-quality semiconductor chips in the sem...
High-volume production data shows that dies, which failed probe test on a semiconductor wafer, have ...
The semiconductor manufacturing process involves long and complex activities, with intensive use of ...
[[abstract]]© 2007 Elsevier - Semiconductor manufacturing involves lengthy and complex processes, an...
Recurring defect cluster patterns on semiconductor wafers can be linked to imperfectness/faults in s...
Gordon E. Moore found that density of transistors doubled every two years on a microchip. However, n...
[[abstract]]The rapid innovation of new process technologies in the semiconductor industry, especial...
The International Technology Roadmap for Semiconductors (ITRS) identifies production test data as an...
This article is devoted to the initial phase of data analysis of failure data from process control s...
Thesis: M. Eng. in Advanced Manufacturing and Design, Massachusetts Institute of Technology, Departm...
Depending on the big data analysis becomes important, yield prediction using data from the semicondu...
Depending on the big data analysis becomes important, yield prediction using data from the semicondu...
The semiconductor manufacturing process involves long and complex activities, with intensive use of ...
The semiconductor manufacturing process involves long and complex activities, with intensive use of ...
Semiconductor manufacturing test has traditionally been seen as a simple task that segregates good D...
The yield management system is very important to produce high-quality semiconductor chips in the sem...
High-volume production data shows that dies, which failed probe test on a semiconductor wafer, have ...
The semiconductor manufacturing process involves long and complex activities, with intensive use of ...
[[abstract]]© 2007 Elsevier - Semiconductor manufacturing involves lengthy and complex processes, an...
Recurring defect cluster patterns on semiconductor wafers can be linked to imperfectness/faults in s...
Gordon E. Moore found that density of transistors doubled every two years on a microchip. However, n...
[[abstract]]The rapid innovation of new process technologies in the semiconductor industry, especial...
The International Technology Roadmap for Semiconductors (ITRS) identifies production test data as an...
This article is devoted to the initial phase of data analysis of failure data from process control s...
Thesis: M. Eng. in Advanced Manufacturing and Design, Massachusetts Institute of Technology, Departm...