Turbulent markets have led to changes in the manufacturing area which paved the way for new concepts and planning approaches. The paper deals with a planning problem which is specific to the semiconductor industry. The conventional planning procedure according to which resources are planned with constant lead times for given planning periods presents a real dilemma for semiconductor manufacturer. One way out of this dilemma is the use of rough planning methods with variable lead times. This article describes such a procedure based on an interative planning concept using artificial neural networks to calculate the variable lead times
textSemiconductor manufacturing is one of the most complex existing manufacturing systems. It requir...
High-level production planning decisions are required for identifying basic courses of actions that ...
Scheduling of semiconductor wafer fabrication system is identified as a complex problem, involving m...
Turbulent markets have led to changes in the manufacturing area which paved the way for new concepts...
Turbulent markets have led to changes in the manufacturing area, paving the way for new manufacturin...
Turbulent markets require new manufacturing concepts and planning approaches. The new PPC model pres...
Semiconductor wafer fabrication involves perhaps the most complex manufacturing process ever used. T...
Part 2: Service Engineering Based on Smart Manufacturing CapabilitiesInternational audienceAs the pr...
The cost of a fabrication line such as one in a semiconductor house has increased dramatically over ...
Semiconductor fabrication lines have become extremely costly, and achieving a good return from such ...
This paper discusses current planning and scheduling hierarchies in customer-oriented semiconductor ...
An efficient and effective forecasting of production cycle times (CT) is a critical success factor i...
Dynamic scheduling for semiconductor wafer FAB is necessary in a complex semiconductor manufacturing...
A neural network-based process model is proposed to optimize the semiconductor manufacturing process...
Scheduling of semiconductor wafer fabrication system is identified as a complex problem, involving m...
textSemiconductor manufacturing is one of the most complex existing manufacturing systems. It requir...
High-level production planning decisions are required for identifying basic courses of actions that ...
Scheduling of semiconductor wafer fabrication system is identified as a complex problem, involving m...
Turbulent markets have led to changes in the manufacturing area which paved the way for new concepts...
Turbulent markets have led to changes in the manufacturing area, paving the way for new manufacturin...
Turbulent markets require new manufacturing concepts and planning approaches. The new PPC model pres...
Semiconductor wafer fabrication involves perhaps the most complex manufacturing process ever used. T...
Part 2: Service Engineering Based on Smart Manufacturing CapabilitiesInternational audienceAs the pr...
The cost of a fabrication line such as one in a semiconductor house has increased dramatically over ...
Semiconductor fabrication lines have become extremely costly, and achieving a good return from such ...
This paper discusses current planning and scheduling hierarchies in customer-oriented semiconductor ...
An efficient and effective forecasting of production cycle times (CT) is a critical success factor i...
Dynamic scheduling for semiconductor wafer FAB is necessary in a complex semiconductor manufacturing...
A neural network-based process model is proposed to optimize the semiconductor manufacturing process...
Scheduling of semiconductor wafer fabrication system is identified as a complex problem, involving m...
textSemiconductor manufacturing is one of the most complex existing manufacturing systems. It requir...
High-level production planning decisions are required for identifying basic courses of actions that ...
Scheduling of semiconductor wafer fabrication system is identified as a complex problem, involving m...