Simulation and deep reinforcement learning for adaptive dispatching in semiconductor manufacturing systems

Abstract: Fabrication areas in semiconductor industry are considered one of the most complex production systems. This complexity is caused by the high-mix of products and end-user market-based demands in that industry. Its dynamic and challenging processing requirements affect the handling capabilities of traditional production management paradigms. In this paper, we propose an application for dispatching and resources allocation through reinforcement learning. The application is based on a discrete-event simulation mod… Show more

“…For instance, adaptive scheduling solutions that automatically choose the most suitable dispatching rules based on system status have been used in [60,197]. The AI-based technologies, e.g., DQL and case-based reasoning, could also be leveraged to train the system and reduce computational time [191][192][193].…”

“…Within the method, an OCBA procedure is used to reduce simulation samples and a reinforcement learning algorithm is used to dynamically adjust the parameters of the metaheuristic [190]. Other AI-based methods, such as convolutional neural network and asynchronous advanced actor critic-based method (CNN-A3C) [191], case-based reasoning [192], and DQL [193], have also been utilized recently.…”

Problems and Solution Methods of Machine Scheduling in Semiconductor Manufacturing Operations: A Survey

“…For instance, adaptive scheduling solutions that automatically choose the most suitable dispatching rules based on system status have been used in [60,197]. The AI-based technologies, e.g., DQL and case-based reasoning, could also be leveraged to train the system and reduce computational time [191][192][193].…”

“…Within the method, an OCBA procedure is used to reduce simulation samples and a reinforcement learning algorithm is used to dynamically adjust the parameters of the metaheuristic [190]. Other AI-based methods, such as convolutional neural network and asynchronous advanced actor critic-based method (CNN-A3C) [191], case-based reasoning [192], and DQL [193], have also been utilized recently.…”

Problems and Solution Methods of Machine Scheduling in Semiconductor Manufacturing Operations: A Survey

“…Yet, all empirical studies apply a very similar experimental setup consisting of the same main software components: An environment representing the production facility layout and logic, a scheduling problem generator, a DRL agent algorithm, and logging as well as evaluation tools. The difference between different experimental setups usually lies within one or more of these components, for example by incorporating a new DRL algorithm [10,11,12], interaction logic between agent and environment [6,3], training procedure [13], learning objective [14,12] or additional problem constraint [14,15]. Regardless of large overlaps, all researchers implement their own individual experimentation framework with the following two consequences: Large initial ramp-up efforts when experimenting with new methodologies or custom problem settings, and scarcity of empirical comparisons to other works.…”

Schlably: A Python Framework for Deep Reinforcement Learning Based Scheduling Experiments

“…The output from the convolutional layer is typically used for the next operation via a non-linear activation function. We used linear activation, as in Equation (2), ELU [14], as in Equation (3), and sigmoid, as in Equation (4).…”

“…Efficient operation of overhead hoist transport (OHT) systems is important for the productivity of semiconductor processes [1]. In particular, it is important to predict traffic flow and congestion over time because OHT operations, such as dispatching [2][3][4] and routing [5][6][7][8], are highly dependent on traffic conditions. In this study, the p OHT congestion prediction issue is addressed based on volume data.…”

Traffic Flow Speed Prediction in Overhead Transport Systems for Semiconductor Fabrication Using Dense-UNet