Abstract
Predictable and fast production launch of new products (product ramp-up) is a crucial success factor in the production industry in general, and for the production of integrated circuits (ICs) in particular. During the ramp-up phase of the product there is, inter alia, the need for product-specific configuration of a wide range of software systems that control the production process in a fully automated manner. This collection of software systems is sourced from several vendors and has therefore to be configured in different ways. Moreover, configuration has to be orchestrated along the whole production process, in accordance with the needs of the new product. This is a complicated, error-prone, and time-consuming task for product engineers, process engineers, and application engineers. The approach described in this chapter avoids such efforts and risks through a semiautomated generation of configurations of software systems. It uses a knowledge base which provides a unified configuration schema across all involved software systems. The approach applies automated reasoning of new configuration content based on the knowledge about new products’ characteristics and knowledge about the existing production environment. The knowledge base is described by ontology models and based on Semantic Web technologies. The described approach is the basis for IT professionals of IC factories and of factories with comparable IT infrastructure to standardize the configuration of software systems being in charge for production control and process control. It contributes to accelerate the launch of new products and to make their ramp-up phase more deterministic.
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References
AutomationML consortium. <AutomationML/> The Glue of Seamless Automation Engineering—Whitepaper AutomationML—Part 5—Communication. www.automationml.org Accessed Sept 2014
Breyfogle III, F.W.: Implementing Six Sigma, 2nd edn. John Wiley and Sons Inc, Austin (2003). ISBN 0-471-26572-1
Dietrich, E., Schulze, A.: Statistische Verfahren zur Maschinen- und Prozessqualifikation (Statistical Methods for Machine and Process Qualification). (Hanser, Ed.) Munich, Vienna (2003). ISBN 3–446-22077-1
Fransoo, J.C., de Kok, A.G.: What determines product ramp-up performance? A review of characteristics based on a case study at nokia mobile phones. Beta, Research School for Operations Management and Logistics (2007). ISSN 1386-9213
Hüttenrauch, M., Baum, M.: Effiziente Vielfalt: Die dritte Revolution in der Automobilindustrie (Efficient Variety: The Third Revolution of the Automotive Industry). Springer, Berlin (2008). ISBN 978-3-540-72115-4
ISA: ANSI/ISA-95.00.01-2000. Enterprise Control System Integration—Part I: Models and Terminology. ISA–The Instrumentation, Systems, and Automation Society, Research Triangle Park, North Carolina, USA (2000). ISBN 1-55617-727-5
ISA: ANSI/ISA-95.00.03-2005. Enterprise Control System Integration—Part 3: Activity Models of Manufacturing Operations Management. ISA–The Instrumentation, Systems, and Automation Society, Research Triangle Park, North Carolina, USA (2005). ISBN 1-55617-955-3
Konrad, K., Hoffmeister, M., Zapp, M., Verl, A., Busse, J.: Enabling fast ramp-up of assembly lines through context-mapping of implicit operator knowledge and machine-derived data. Int. Fed. Inf. Process. 163−174 (2012)
Kurttila, P., Shaw, M., Helo, P.: Model factory concept—enabler for quick manufacturing capacity ramp-up. In: European Wind Energy Conference and Exhibition, EWEC, vol. 4 (2010)
Macleod, P.: A review of flexible circuit technology and its applications. In: PRIME Faraday Partnership (2002). ISBN 1-84402-023-1
Moser, T., Mordinyi, R., Winkler, D., Melik-Merkumians, M., Biffl, S.: Efficient automation systems engineering process support based on semantic integration of engineering knowledge. In: 16th IEEE International Conference on Emerging Technologies and Factory Automation (ETFA 2011), pp. 1−8. IEEE Computer Society (2011). doi:10.1109/ETFA.2011.6059098
Moser, T., Biffl, S., Sunindyo, W.D., Winkler, D.: Integrating production automation expert knowledge across engineering stakeholder domains. In: IEEE (ed.) IEEEXplore Digital Library, pp. 352−359, Krakow (2010)
Nenni, D., McLellan, P.: FABLESS: The transformation of the semiconductor industry. SemiWiki.com (2013). ISBN 978-1-4675-9307-6
Ruegsegger, S., Wagner, A., Freudenberg, J., Grimard, D.: Optimal feedforward recipe adjustment for CD control in semiconductor patterning. In: Characterization and Metrology for ULSI Technology: 1998 International Conference, pp. 753−577. The American Institute of Physics (1998). ISBN 1-56396-753-7
Said El-Haik, B.: Axiomatic Quality: Integrating Axiomatic Design with Six-sigma, Reliability, and Quality Engineering. John Wiley & Sons, Inc., New Jersey (2005). 0-471-68273-X
Slamanig, M., Winkler, H.: Management of product change projects: a supply chain perspective. Int. J. Serv. Oper. Manag. 11(4) (2012)
Slamanig, M., Winkler, H.: Wissensmanagement bei Produktwechselprojekten (Knowledge management in product change projects). ZWF Wissensmanagement. Document number ZW110416 (10), 893−900 (2010). www.zwf-online.de
Smietana, M., Mroczyński, R., Kwietniewski, N.: Effect of sample elevation in radio frequency plasma enhanced chemical vapor deposition (RF PECVD) reactor on optical properties and deposition rate of silicon nitride thin films. Materials 7(2), 1249−1260 (2014). doi:10.3390/ma7021249
Suh, N.P.: The Principles of Design. Oxford University Press, Oxford (1990). ISBN 0-19-504345-6
Suh, N.P.: Axiomatic Design—Advances and Applications. Oxford University Press, New York (2001). ISBN 978-0-19-513466-7
Terwiesch, C., Bohn, R.E., Chea, K.S.: International product transfer and production ramp-up: a case study from the data storage industry. In: R&D Management, vol. 31, no. 4, pp. 435–451. Blackwell Publishers Ltd, Oxford (2001).
Terwiesch, C., Xu, Y.: The copy exactly ramp-up strategy: trading-off learning with process-change (2003)
Wappis, J., Jung, B.: Taschenbuch - Null-Fehler-Management - Umsetzung von Six Sigma (Zero-defects management - Implementation of six sigma), 3rd edn. Carl Hanser Verlag, Munich (2010). ISBN 978-3-446-42262-9
Willmann, R., Biffl, S., Serral Asensio, E.: Determining qualified production processes for new product ramp-up using semantic web. In: Proceedings of the 14th International Conference on Knowledge Technologies and Data-Driven Business (I-KNOW). ACM, Graz (2014). ISBN 978-1-4503-2769-5
Winkler, D., Biffl, S.: Process Automation and Quality Management in Multi-Disciplinary Engineering Environments. Vienna University of Technology (2010). http://cdl.ifs.tuwien.ac.at/files/CDL_M1_03%20Process_Automation_Quality_Management%20Research%20100321.pdf. Accessed 03 Oct 2013
Xiao, H.: Introduction to Semiconductor Manufacturing Technology, 2nd edn. SPIE, Bellingham (2012). ISBN 978-0-8194-9092-6
Acknowledgment
This work was partly supported by the Christian Doppler Forschungsgesellschaft, the Federal Ministry of Economy, Family and Youth, and the National Foundation for Research, Technology and Development in Austria.
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Willmann, R., Kastner, W. (2016). Product Ramp-up for Semiconductor Manufacturing Automated Recommendation of Control System Setup. In: Biffl, S., Sabou, M. (eds) Semantic Web Technologies for Intelligent Engineering Applications. Springer, Cham. https://doi.org/10.1007/978-3-319-41490-4_9
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DOI: https://doi.org/10.1007/978-3-319-41490-4_9
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