Being able to build a prediction model of an existing wafer production facility using discrete-event simulation is an advanced method for analyzing and optimizing the performance of a wafer fab. In particular, the scheduling of manufacturing orders bears great optimization potential. This article outlines the proceedings to develop an advanced semiconductor production simulation model which takes peripheral parameters into account to examine the fab behaviors throughout the planning horizon
Semiconductor fabrication facilities face many challenges through the many phases of their life cycl...
In this paper, we study a design problem found in wafer fabs. Different orders are grouped into one ...
This paper presents the application of a framework, pro-posed by the National Institute of Standards...
Discrete-event simulation is a well-established and rather successful method in some semiconductor c...
The process of wafer fabrication is arguably the most technologically complex and capital intensive ...
This research presents the development of simulation modeling for WIP management in semiconductor fa...
We describe a discrete event simulator developed for daily prediction of WIP position in an operatio...
This paper investigates the effect of different inputs on selected performance metrics such as cycle...
Semiconductor manufacturing is one of the most complex industries in terms of technology and manufac...
One problem in semiconductor manufacturing optimization is to find an optimal release rate of raw ma...
This paper is concerned with assessing the impact of 15 existing release policies in combination wit...
Focuses mainly on batch size decision policies as part of cycle time optimization techniques. A simp...
Abstract This report describes how discrete-event simulation can be used in production optimisation ...
This article describes a methodology to model complex operation and process driven practices using a...
In response to an increasingly fierce competition faced by semiconductor manufacturing companies, ...
Semiconductor fabrication facilities face many challenges through the many phases of their life cycl...
In this paper, we study a design problem found in wafer fabs. Different orders are grouped into one ...
This paper presents the application of a framework, pro-posed by the National Institute of Standards...
Discrete-event simulation is a well-established and rather successful method in some semiconductor c...
The process of wafer fabrication is arguably the most technologically complex and capital intensive ...
This research presents the development of simulation modeling for WIP management in semiconductor fa...
We describe a discrete event simulator developed for daily prediction of WIP position in an operatio...
This paper investigates the effect of different inputs on selected performance metrics such as cycle...
Semiconductor manufacturing is one of the most complex industries in terms of technology and manufac...
One problem in semiconductor manufacturing optimization is to find an optimal release rate of raw ma...
This paper is concerned with assessing the impact of 15 existing release policies in combination wit...
Focuses mainly on batch size decision policies as part of cycle time optimization techniques. A simp...
Abstract This report describes how discrete-event simulation can be used in production optimisation ...
This article describes a methodology to model complex operation and process driven practices using a...
In response to an increasingly fierce competition faced by semiconductor manufacturing companies, ...
Semiconductor fabrication facilities face many challenges through the many phases of their life cycl...
In this paper, we study a design problem found in wafer fabs. Different orders are grouped into one ...
This paper presents the application of a framework, pro-posed by the National Institute of Standards...