目前,该方法已在某实际半导体生产线中应用并取得了良好的效果。
At present, the proposed method has been applied to the actual wafer fab with better performance.
本文提出了一种可重入半导体生产线调度模型及其建模方法进行了研究。
In this paper a kind of scheduling model and its modeling approach are studied for reentrant semiconductor production line.
在分析半导体生产线调度分类的基础上,提出了组件化可重构半导体生产线调度体系结构。
Based on the classification on the scheduling for semiconductor wafer lines, the modular and reconfigurable framework is proposed.
将重调度策略划分为半导体生产线、设备组和设备重调度层次,利用仿真评价确定优化的重调度策略,并获得样本数据。
The rescheduling strategies are divided into line layer, machine group layer and machine layer. The samples for FNN are setup by simulation evaluation.
基于三种不同规模的半导体生产线模型,在非批加工设备使用不同的调度规则的情况下,对提出的SRB进行了仿真验证。
SRB was verified on three different scale semiconductor wafer fabrication facilities simulation models by applying various dispatching rules on non-batch processing machines.
提出一种具有逻辑时序特征的微粒群优化算法,并将其应用于半导体封装生产线的工序参数优化中。
A kind of particle swarm optimization method with the characteristic of logical time-sequenced is proposed and applied to procedure parameters optimization of semiconductor assembly product line.
产品主要应用于半导体,电力,石油化工,生物制药,天然气,航空航天及自动化生产线。
Our production is mainly applied into semiconductor, electric power, petrol, biology pharmacy, natural gas, aviation spaceflight and automatic produce line.
产品主要应用于半导体,电力,石油化工,生物制药,天然气,航空航天及自动化生产线。
Our production is mainly applied into semiconductor, electric power, petrol, biology pharmacy, natural gas, aviation spaceflight and automatic produce line.
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