A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production

February 1, 2023

Abstract:

This paper addresses batch scheduling at a back-end semiconductor plant of Nexperia. This complex manufacturing environment is characterized by a large product and batch size variety, numerous parallel machines with large capacity differences, sequence and machine dependent setup times and machine eligibility constraints. A hybrid genetic algorithm is proposed to improve the scheduling process, the main features of which are a local search enhanced crossover mechanism, two additional fast local search procedures and a user-controlled multi-objective fitness function. Testing with real-life production data shows that this multi-objective approach can strike the desired balance between production time, setup time and tardiness, yielding high-quality practically feasible production schedules.

Authors

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans

Eindhoven University of Technology, Nexperia,Eindhoven University of Technology,Eindhoven University of Technology,Nexperia,Nexperia

DOI:

10.1609/icaps.v28i1.13913

HOW TO CITE:

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production Proceedings of the International Conference on Automated Planning and Scheduling, 28 (2018) 298-302.

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production ICAPS 2018, 298-302.

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans (2018). A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production. Proceedings of the International Conference on Automated Planning and Scheduling, 28, 298-302.

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans. A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production. Proceedings of the International Conference on Automated Planning and Scheduling, 28 2018 p.298-302.

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans. 2018. A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production. "Proceedings of the International Conference on Automated Planning and Scheduling, 28". 298-302.

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans. (2018) "A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production", Proceedings of the International Conference on Automated Planning and Scheduling, 28, p.298-302

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans, "A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production", ICAPS, p.298-302, 2018.

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans. "A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production". Proceedings of the International Conference on Automated Planning and Scheduling, 28, 2018, p.298-302.

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans. "A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production". Proceedings of the International Conference on Automated Planning and Scheduling, 28, (2018): 298-302.

Jelle Adan,Ivo Adan,Alp Akcay,Rick Van den Dobbelsteen,Joep Stokkermans. A Hybrid Genetic Algorithm for Parallel Machine Scheduling at Semiconductor Back-End Production. ICAPS[Internet]. 2018[cited 2023]; 298-302.

ISSN: 2334-0843

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