研究生: |
王祥義 Wang, Hsiang-Yi |
---|---|
論文名稱: |
因應產品組合變化的彈性生產做法:以化合物半導體晶圓製造代工廠為例 Flexible production method for handling product mix variation in compound semiconductor manufacturing |
指導教授: |
朱詣尹
Chu, Yee-Yeen |
口試委員: | |
學位類別: |
碩士 Master |
系所名稱: |
工學院 - 工業工程與工程管理學系 Department of Industrial Engineering and Engineering Management |
論文出版年: | 2010 |
畢業學年度: | 98 |
語文別: | 中文 |
論文頁數: | 64 |
中文關鍵詞: | 產能與產品組合 、標竿學習 、製造彈性 、備援建置 |
外文關鍵詞: | Capacity & Product Mix, Benchmarking, Manufacturing Flexibility, Redundancy Build-up |
相關次數: | 點閱:3 下載:0 |
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對成熟的產業而言,大量生產是降低製造成本的必然做法,但是現今市場需求的穩定性逐漸地消失,企業已無法單就生產的觀點來選擇對自己最有效益的產品組合。為了提高企業回應顧客需求的能力,兼具生產的彈性和充足的產能,已成為製造業必要的生存條件。
本研究主要探究在產品組合的變動下,如何能維持一定水準的足夠產能,以中型規模之半導體晶圓製造代工公司的生產線為例。用彈性生產的概念為主體,探討如何透過備援建置加上製程模組化與一致化的手法,以有效縮小產能的變異度,並進而提升平均的產能水準。此外,本研究亦針對標竿學習的過程加以描述,並分析比較各項生產做法的關聯性。
作者透過實際參與以及觀察個案公司的專案執行,了解到企業所面臨之問題,特別是針對影響產能的因素。在解決方案的發展上,本研究推導出一套「整合性生產備援機制」的做法,並提出對於成效的衡量方式與指標,建立了實務的結構化生產改善流程供做參考,包含以彈性指標做為改善優先順序的選擇工具,以減少因為產品組合變動對於企業產能所造成之衝擊。
Mass-production is a typical method to reduce manufacturing cost. Since the market demand is unstable for technology-based products, manufacturers cannot just choose the product mix based on the production viewpoint. In order to enhance the capability of responding to customer demand, both the flexible production and sufficient capacity are the key factors in the technology-based product manufacturing.
Using a medium-scale production line in semiconductor foundry industry as an example, this research focuses on how to maintain a sufficient capacity with varying product mix by applying a framework of flexible production methods. The goal is to reduce the capacity variation and to enhance the average capacity level by using redundancy, process modularization and process alignment. In addition, the study also describes the benchmarking process used in the case, analyzes and compares the impacts and relationships of various production methods.
Through the actual participation and the observation in project execution, this study analyzes the problems of the case company, especially identifies the key factors affecting the capacity. In developing the solution, this research introduces an“integrated production redundancy mechanism” and proposes the performance indices to measure the improvements. This research also establishes a structured production improvement process to include the flexibility indices for priority setting as the key step. The approach could provide a model for reducing the impact on capacity due to the change in product mix.
英文部份
(1) Chou, Y.C. and Hong, L.H., ”A Methodology for Product Mix Planning in Semi Foundry Manufacturing”, IEEE Transactions on Semiconductor Manufacturing, Vol.13, No.3, pp.278-285, 2000
(2) Cox, J.F. and Blackstone, J.H., “APICS Dictionary”, APICS- The Educational Society for Resource Management, 1998
(3) Davis, S.M., “Future Perfect”, Reading, MA: Addison-Wesley, 1987
(4) De Groote, X., “The Flexibility of Production Processes: A General Framework”, Management Science, Vol.40, No.7, pp.933-945, 1994
(5) Fredendall, L.D. and Lea, B.R., “Improving the Product Mix Heuristic in the Theory of Constraints”, International Journal of Production Research, Vol.35, No.6, pp.1535-1544, 1997
(6) Gerwin, D., “An Agenda for Research on The Flexibility of Manufacturing Processes”, International Journal of Operations & Production Management, Vol.7, No.1, pp.38-49, 1987
(7) Groover, M.P., “Automation, Production Systems, and Computer Integrated Manufacturing”, 1991 (方世榮譯,自動化生產系統及電腦整合製造,曉園出版社)
(8) Karabuk, S. and Wu, S.D., “Coordinating Strategic Capacity Planning in the Semiconductor Industry”, Operations Research, Vol.51, No.6, pp.839-849, 2003
(9) Karlof, B., Lundgren, K. and Froment, M.E., “Benchlearning”, 2002 (胡瑋珊譯,標竿學習-向企業典範取經,三民書局)
(10) Konopka, J. M., “Capacity Utilization Bottleneck Efficiency System-CUBES”, IEEE Transactions on Components, Packaging, and Manufacturing Technology-Part A, 18(3), 484-491, 1995
(11) Nilsson, C.H. and Nordahl, H., “Making Manufacturing Flexibility Operational-Part I : A Framework.” Integrated Manufacturing System, Vol.6, No.1, pp.5-11, 1995
(12) O’Connor, R.A., and Davidson, J.P., “A Strategic, Client Centered Marketing Approach for Professional Service Firms”, Journal of Professional Services Marketing, Vol.1, No.1-2, pp.21-23, 1995
(13) Sethi, A.K. and Sethi, S., “Flexibility in Manufacturing: A Survey” The International Journal of Flexible Manufacturing System, Vol.2, pp.289-328, 1990
(14) Slack, N., “Flexibility as A Manufacturing Objective”, International Journal of Operations & Production Management 3, pp.4-13, 1983
(15) Stanev, S. and Krappe, H., “Efficient Change Management for the Flexibility Production of the Future”, Journal of Manufacturing Technology Management, Vol.19, No.6, pp.712-726, 2008
(16) Thomke, S.H. and Reinertson, D., “Agile Product Development: Managing Development Flexibility in Uncertain Environments”, California Management Review, Vol.41, No.1, 1998
(17) Ungan, M.C., “Manufacturing Best Practices:Implementation Success Factors and Performance”, Journal of Manufacturing Technology Management, Vol.18, No.3, pp.333-348, 2007
(18) Upton, D.M., “What Really Makes Factories Flexible?”, Harvard Business Review, Vol.73, pp.74-84, 1994
(19) Upton, D.M., “Flexibility as Process Mobility:The Management of Plant Capabilities for Quick Response Manufacturing”, Journal of Operations Management, Vol.12, No.3-4, pp.205-224, 1995
(20) Uzsoy, R., Lee, C.Y. and Martin-Vega, L.A., “A Review of Production Planning and Scheduling Models in the Semiconductor Industry. Part I:System Characteristics, Performance Evaluation and Production Planning”, IIE Trans., Vol.24, No.4, pp.47-60, 1992
(21) Wu, S. D., Erkoc, M. and Karabuk S., “Managing Capacity in the High-tech Industry:A Review of Literature”, The Engineering Economist, Vol.50, pp.125-158, 2005
中文部份
(1) 王天允,”由台灣矽產業結構探討台灣砷化鎵產業發展趨勢”,國立交通大學科技管理研究所碩士論文,2002
(2) 尤隨樺,”產品多樣性及製造彈性對生產績效與生產成本之影響:晶圓代工廠商之實地實證研究”, 國立政治大學會計研究所博士論文,2002
(3) 余業鑫,” 以生產力為觀點的半導體晶圓廠產能規劃方法”, 國立清華大學工業工程與工程管理研究所碩士論文,2003
(4) 李明勇,” 研發彈性能力、製造彈性能力與競爭優勢之關係研究--台灣科技產業之實證”, 銘傳大學管理科學研究所碩士論文,2000
(5) 邱淳青,”價值創造與成長理論-TSMC”,國立清華大學科技管理研究所碩士論文,2008
(6) 林振宏,”限制理論應用於晶圓廠產能受限機台的產能分析與派工”,中華大學工業工程與管理研究所碩士論文,2001
(7) 林鴻鈞,”企業營運持續之資訊備援系統探討”,國立台北大學企業管理研究所碩士論文,2008
(8) 吳健誠,”建構考慮新產品投片分配之半導體需求滿足模式”, 國立清華大學工業工程與工程管理研究所碩士論文,2008
(9) 周志遠,”多功能機臺最適調整方案之研究:以晶圓代工廠之機臺為例”, 國立交通大學工業工程與管理研究所碩士論文,2002
(10) 洪美妙,”考慮不同需求狀況下之半導體產能擴張問題”, 國立清華大學工業工程與工程管理研究所碩士論文,2001
(11) 陳韋均,”TFT多廠區之產能與產品組合規劃問題”,國立清華大學工業工程與工程管理研究所碩士論文,2005
(12) 陳馨宇,陳永豐,周雍強” 不確定需求與高產能成本之寡佔產業的產能策略賽局模式”, 科技管理學刊第十二卷第二期P65-92,2007
(13) 黃漢邦,游志源 ” 半導體廠自動化”, 半導體科技-先進封裝與測試雜誌,2001
(14) 張文智,”台灣砷化鎵代工與矽晶圓代工產業差異及發展策略”,國立清華大學科技管理研究所碩士論文,2005
(15) 鄭兆恩,” 機台/製程群組方法之研究”,國立清華大學工業工程與工程管理研究所碩士論文,2008
(16) 劉興棟,” 晶圓廠代工產品訂單組合策略研究”,國立交通大學工業工程與管理研究所碩士論文,2000