论文信息 - Optimal wet-furnace machine allocation for daily fab production

Optimal wet-furnace machine allocation for daily fab production

This paper presents the design of an efficient and near-optimal machine allocation method for wet bench and furnace machine groups to achieve daily production targets and high moves. The core of the method consists of an innovative integer linear programming problem formulation of the complex operation constraints such as variable size batching, queue time, cross fab transportation and linearization of the objective function, and the skillful application of an optimization tool suite. Test results over real fab data clearly demonstrated the superiority of the method than a currently practiced heuristic in bottleneck (furnace) machine utilization (potentially by 10–15%) and it leads to nearly 50% reduction in average total waiting time per FOUP. Its computation efficiency (in seconds) indicates a strong potential for both solving larger sized problems and extensions to dynamic allocations.

[1] M. Mathirajan,et al. A literature review, classification and simple meta-analysis on scheduling of batch processors in semiconductor , 2006 .

[2] J. Harrington,et al. Dynamic Wet-Furnace Dispatching/Scheduling in Wafer Fab , 2006, The 17th Annual SEMI/IEEE ASMC 2006 Conference.

[3] K. Ibrahim,et al. Efficient lot batching system for furnace operation , 2003, Advanced Semiconductor Manufacturing Conference and Workshop, 2003 IEEEI/SEMI.

[4] Reha Uzsoy,et al. Minimizing total tardiness on a batch processing machine with incompatible job families , 1998 .

[5] Reha Uzsoy,et al. Alternative loading and dispatching policies for furnace operations in semiconductor manufacturing: a comparison by simulation , 2000, 2000 Winter Simulation Conference Proceedings (Cat. No.00CH37165).

[6] J. Domaschke,et al. Implementation of modeling and simulation in semiconductor wafer fabrication with time constraints between wet etch and furnace operations , 2000 .