Using simulation to determine the batch size for I/O drawer test process in a high-end server manufacturing environment

Lawrence Al-Fandi; Faisal Aqlan

doi:10.14809/faim.2014.1017

Using simulation to determine the batch size for I/O drawer test process in a high-end server manufacturing environment

Lawrence Al-Fandi, Faisal Aqlan

School of Engineering (Behrend)

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In this research, discrete-event simulation is used to study the I/O drawer test process in a high-end server manufacturing environment in order to identify the optimal batch size of the I/O drawers to be tested per driver. High-end server manufacturing environment is characterized by fast lead time and lengthy build process. Therefore, main components of the server, such as I/O drawers, are tested ahead of time (fabrication test) and stored in inventory as tested parts to be ready for prompt fulfilment of the customer orders. In this research, a simulation model is developed for the I/O drawer test process with a focus on batching the I/O drawers on testing. Different scenarios for the batch size are considered and a statistical comparison is performed against the current scenario used by the I/O drawer Fab test operators. Unlike the "one-piece flow" lean concept which encourages small batch size (even one), the results show significant savings in cycle time and energy consumption when the batch size is increased. This is attributed to the lengthy setup time of the I/O drawer testing process as using small batch sizes requires very short set-up time. The optimal batch size scenario results in cycle time savings by 20% which is equivalent to 8116 hours per year. Other savings include: electrical energy and less consumption of chilled water for the cooling units.

Original language	English (US)
Title of host publication	FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing
Subtitle of host publication	Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation
Editors	F. Frank Chen
Publisher	DEStech Publications Inc.
Pages	1017-1022
Number of pages	6
ISBN (Electronic)	9781605951737
DOIs	https://doi.org/10.14809/faim.2014.1017
State	Published - 2014
Event	24th International Conference on Flexible Automation and Intelligent Manufacturing, FAIM 2014 - San Antonio, United States Duration: May 20 2014 → May 23 2014

Publication series

Name	FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation

Other

Other	24th International Conference on Flexible Automation and Intelligent Manufacturing, FAIM 2014
Country/Territory	United States
City	San Antonio
Period	5/20/14 → 5/23/14

All Science Journal Classification (ASJC) codes

Control and Systems Engineering
Artificial Intelligence
Industrial and Manufacturing Engineering

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.14809/faim.2014.1017

Cite this

Al-Fandi, L., & Aqlan, F. (2014). Using simulation to determine the batch size for I/O drawer test process in a high-end server manufacturing environment. In F. F. Chen (Ed.), FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation (pp. 1017-1022). (FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation). DEStech Publications Inc.. https://doi.org/10.14809/faim.2014.1017

Al-Fandi, Lawrence ; Aqlan, Faisal. / Using simulation to determine the batch size for I/O drawer test process in a high-end server manufacturing environment. FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation. editor / F. Frank Chen. DEStech Publications Inc., 2014. pp. 1017-1022 (FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation).

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title = "Using simulation to determine the batch size for I/O drawer test process in a high-end server manufacturing environment",

abstract = "In this research, discrete-event simulation is used to study the I/O drawer test process in a high-end server manufacturing environment in order to identify the optimal batch size of the I/O drawers to be tested per driver. High-end server manufacturing environment is characterized by fast lead time and lengthy build process. Therefore, main components of the server, such as I/O drawers, are tested ahead of time (fabrication test) and stored in inventory as tested parts to be ready for prompt fulfilment of the customer orders. In this research, a simulation model is developed for the I/O drawer test process with a focus on batching the I/O drawers on testing. Different scenarios for the batch size are considered and a statistical comparison is performed against the current scenario used by the I/O drawer Fab test operators. Unlike the {"}one-piece flow{"} lean concept which encourages small batch size (even one), the results show significant savings in cycle time and energy consumption when the batch size is increased. This is attributed to the lengthy setup time of the I/O drawer testing process as using small batch sizes requires very short set-up time. The optimal batch size scenario results in cycle time savings by 20% which is equivalent to 8116 hours per year. Other savings include: electrical energy and less consumption of chilled water for the cooling units.",

author = "Lawrence Al-Fandi and Faisal Aqlan",

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year = "2014",

doi = "10.14809/faim.2014.1017",

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Al-Fandi, L & Aqlan, F 2014, Using simulation to determine the batch size for I/O drawer test process in a high-end server manufacturing environment. in FF Chen (ed.), FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation. FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation, DEStech Publications Inc., pp. 1017-1022, 24th International Conference on Flexible Automation and Intelligent Manufacturing, FAIM 2014, San Antonio, United States, 5/20/14. https://doi.org/10.14809/faim.2014.1017

Using simulation to determine the batch size for I/O drawer test process in a high-end server manufacturing environment. / Al-Fandi, Lawrence; Aqlan, Faisal.
FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation. ed. / F. Frank Chen. DEStech Publications Inc., 2014. p. 1017-1022 (FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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AB - In this research, discrete-event simulation is used to study the I/O drawer test process in a high-end server manufacturing environment in order to identify the optimal batch size of the I/O drawers to be tested per driver. High-end server manufacturing environment is characterized by fast lead time and lengthy build process. Therefore, main components of the server, such as I/O drawers, are tested ahead of time (fabrication test) and stored in inventory as tested parts to be ready for prompt fulfilment of the customer orders. In this research, a simulation model is developed for the I/O drawer test process with a focus on batching the I/O drawers on testing. Different scenarios for the batch size are considered and a statistical comparison is performed against the current scenario used by the I/O drawer Fab test operators. Unlike the "one-piece flow" lean concept which encourages small batch size (even one), the results show significant savings in cycle time and energy consumption when the batch size is increased. This is attributed to the lengthy setup time of the I/O drawer testing process as using small batch sizes requires very short set-up time. The optimal batch size scenario results in cycle time savings by 20% which is equivalent to 8116 hours per year. Other savings include: electrical energy and less consumption of chilled water for the cooling units.

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Al-Fandi L, Aqlan F. Using simulation to determine the batch size for I/O drawer test process in a high-end server manufacturing environment. In Chen FF, editor, FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation. DEStech Publications Inc. 2014. p. 1017-1022. (FAIM 2014 - Proceedings of the 24th International Conference on Flexible Automation and Intelligent Manufacturing: Capturing Competitive Advantage via Advanced Manufacturing and Enterprise Transformation). doi: 10.14809/faim.2014.1017

Using simulation to determine the batch size for I/O drawer test process in a high-end server manufacturing environment

Abstract

Publication series

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All Science Journal Classification (ASJC) codes

UN SDGs

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