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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 周雍強(Yong-Chiang Chou) | |
dc.contributor.author | Cheng-Hao Huang | en |
dc.contributor.author | 黃政皓 | zh_TW |
dc.date.accessioned | 2021-06-15T04:54:05Z | - |
dc.date.available | 2015-08-12 | |
dc.date.copyright | 2010-08-12 | |
dc.date.issued | 2010 | |
dc.date.submitted | 2010-07-30 | |
dc.identifier.citation | [1] 許淑芬,1998,「具等候時間窗口限制之零工式生產排程問題」,中央大學工業管理研究所碩士論文。
[2] 蔡啟聰,1995,「晶圓製造廠考慮等候時間限制之派工策略」,交通大學工業工程研究所碩士論文 [3] 涂漢威 (2005), 晶圓製造廠考慮等候時間限制之批量放行法則, 清華大學工業工程研究所碩士論文 [4] 葉家佑(2005),產品組合對平行機台工作分派效率之影響, 台灣大學工業工程研究所碩士論文 [5] 巫啟彰 (2006),半導體晶圓製造廠中等候線間限制作業的放行控制方法, 清華大學工業工程研究所碩士論文 [6] 黃嘉常(2007), 考量等候時間限制之半導體製造在製品分配及控制方法 , 清華大學工業工程研究所碩士論文 [7] Berning, G., M. Brandenburg, et al. (2004). 'Integrating collaborative planning and supply chain optimization for the chemical process industry (I)--methodology.' Computers & Chemical Engineering 28(6-7): 913-927. [8] Chen, W.-L., C.-Y. Huang, et al. (2009). 'Multi-tier and multi-site collaborative production: Illustrated by a case example of TFT-LCD manufacturing.' Computers & Industrial Engineering 57(1): 61-72. [9] Chou Y-C C-S Wu, and J-Z Lin,“Optimization and Economic Analysis for Tool Portfolio Planning in Semiconductor Manufacturing,” 10th Annual International Symposium on Semiconductor Manufacturing, Oct. 2001, San Jose, CA, USA. [10] Chou Y-C, Chen C-J, Tang C-W, Su JH, Wang L. Integration of supply chain scheduling by constraint satisfactory. In: Proceedings of the 14th conference on flexible automation and intelligent manufacturing, 2004. p. 1316-24. [11] Gnoni, M. G., R. Iavagnilio, et al. (2003). 'Production planning of a multi-site manufacturing system by hybrid modelling: A case study from the automotive industry.' International Journal of Production Economics 85(2): 251-262. [12] Gupta, A. K. and A. I. Sivakumar (2006). 'Optimization of due-date objectives in scheduling semiconductor batch manufacturing.' International Journal of Machine Tools and Manufacture 46(12-13): 1671-1679. [13] Fowler ,J.W, D. T. P. a. G. L. H. (1992). 'Real-time control of multiproduct bulk-service semiconductor manufacturing processes.' IEEE Transactions on Semiconductor Manufacturing, 5(2): 158-163 [14] Jang, J., J. Suh, et al. (2001). 'A Look -Ahead Routing Procedure for Machine Selection in a Highly Informative Manufacturing System.' The International Journal of Flexible Manufacturing Systems, Vol. 13, pp. 287– 308. [15] Jolayemi, J. K. and F. O. Olorunniwo (2004). 'A deterministic model for planning production quantities in a multi-plant, multi-warehouse environment with extensible capacities.' International Journal of Production Economics 87(2): 99-113. [16] Mandelbaum.M (2008). 'The value of lookahead information in schedule unit length jobs in parallel to minimize the expected makespan.' 20th Intemational conference on Production Research 27(2):251-262. [17] Miragliotta, G. and M. Perona (2005). 'Decentralised, multi-objective driven scheduling for reentrant shops: A conceptual development and a test case.' European Journal of Operational Research 167(3): 644-662. [18] Moon, C., J. Kim, et al. (2002). 'Integrated process planning and scheduling with minimizing total tardiness in multi-plants supply chain.' Computers & Industrial Engineering 43(1-2): 331-349. [19] Moon, C., Y. H. Lee, et al. (2008). 'Integrated process planning and scheduling in a supply chain.' Computers & Industrial Engineering 54(4): 1048-1061. [20] Moon, C. and Y. Seo (2005). 'Evolutionary algorithm for advanced process planning and scheduling in a multi-plant.' Computers & Industrial Engineering 48(2): 311-325. [21] Robinson, J. K. (1998). 'Capacity Planning in a semiconductor wafer fabrication facility with time constraints between process steps.' PhD Thesis. Massachusetts University. [22] Sambasivan, M. and S. Yahya (2005). 'A Lagrangean-based heuristic for multi-plant, multi-item, multi-period capacitated lot-sizing problems with inter-plant transfers.' Computers & Operations Research 32(3): 537-555. [23] Scholl, W. and Domaschke, J., 2000. Implementation of modeling and simulation in semiconductorwafer fabrication with time constraints between wet etch and furnace operations. IEEE Transactions on Semiconductor Manufacturing, 13 (3), 273–277. [24] Vercellis, C. (1999). 'Multi-plant production planning in capacitated self-configuring two-stage serial systems.' European Journal of Operational Research 119(2): 451-460. [25] Wu, C., J. Lin, et al. (2009). 'Dynamic production control in a serial line with process queue time constraint.' International Journal of Production Research .Volume 48, Issue 13 January 2010 , pages 3823 – 3843 [26] You R-C, “A Tool Portfolio Planning Methodology for Semiconductor Wafer Fabs,” Proceedings of International Symposium on Semiconductor Manufacturing, Santa Clara, California, pp. 11-14, 1999. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/46104 | - |
dc.description.abstract | 半導體製造系統複雜,尤其在今12吋晶圓廠的時代,整個生產階段形成專業分工的情形,各生產節點各自做好最好的生產規劃,但是在跨廠區之間卻缺乏一個良好的系統來整合,因此有許多的問題需要解決,其中之一便是等候時間限制。在特定製程間會有等候時間之限制,前製程完成後需於特定等候時間限制內進入後製程,超過此一時限會產生品質問題,需進行重工損耗產能。
有許多的文獻在處理多零工式生產整合的議題上,是使用數學規劃法或是模擬法來求取最佳解,但是當問題的複雜度變大時,決策時間會呈倍數成長,不適合短期、動態的環境,有鑑於此,本研究發展一個以靜態產能估計為基底的整合方法(Queue estimate-based Lot Permission rule; QEBP),係利用目前可得之資訊,如工件規格、現場狀況等資訊去做組合運算,以快速的估計生產週期時間。 此資訊可用來處理工單有等後時間限制的特性;上游的生產節點可以經由預估下游暫存區的在製品負荷長度,然後在適當的時間點投料,避免超出等候時間限制的情形出現,經過模擬實驗的結果分析,發現QEBP在不同的環境設置下,均比完全放行法則,更能提高產量、有效率的估計產能負荷,能幫助管理者快速的做出決策。 | zh_TW |
dc.description.abstract | The semiconductor manufacturing system is complex, each of manufacturing node do the best production planning, but lack of cross cooperation between the factory. There are many factors affecting the throughput and yield rate. One of them is the “Queue-Time-Limit”. Certain process steps have the queue-time-limit, which means a lot needs to begin the following process step within certain time limit after it completes its operation of the previous process step. If a lot exceeds the queue-time-limit, quality issues will occur and the lot needs to be reworked
Many of the references deal with multi job shops integration issues, they use mathematical programming method or the simulation method to obtain the optimal solution, but when the complexity of the problem become larger, decision time will grow exponentially. This situation is not suitable for short-term,dynamic environment. So, this research develop a static capacity estimated based integration method (Queue estimate-based Lot Permission rule; QEBP) it using the available information currently, such as the lot type, site of conditions or so on to Combination calculation, in order to estimate the production cycle time quickly. This information can be used to handle work orders with the queue time limit characteristics upstream production node estimate the downstream buffer loading, and then feed the lots at appropriate time to avoid waiting time exceed the limit .After the simulation analysis, we found QEBP complete more work orders than all-release method in different environment ,it’s also estimate the capacity loading efficiently that can help managers make decisions quickly. | en |
dc.description.provenance | Made available in DSpace on 2021-06-15T04:54:05Z (GMT). No. of bitstreams: 1 ntu-99-R97546021-1.pdf: 1170058 bytes, checksum: 1e5f2adc0c321b6b2c3ba48e8cc3655c (MD5) Previous issue date: 2010 | en |
dc.description.tableofcontents | 目 錄
第一章 緒論 1 1.1 研究背景與動機 1 1.2 問題描述 2 1.2.1 非等效平行機台 3 1.2.2 具時柵限制的排程特性 4 1.2.3 等候時間限制 6 1.3 研究目的 6 1.4 研究構想 7 1.5 研究架構 7 第二章 文獻回顧與探討 8 2.1 半導體前端製程系統 8 2.1.1 黃光微影製造系統 8 2.1.2 離子植入區製造系統 10 2.2 製造整合類型 11 2.3 前瞻視野應用 16 2.4 等候時間限制文獻回顧: 18 2.5 靜態產能模型 20 第三章 模型建構 22 3.1 考慮機台能力限制之靜態產能演算法 22 3.1.1 FOPM演算法-第一階段分派指標之求算 24 3.1.2 實例驗證 26 3.2 FOPM演算法-第二階段工單-機台分派法: 29 3.3 FOPM演算法-遞迴計算分派指標 32 3.4 模擬方法分析 33 第四章 整合方法與實驗分析 44 4.1 應用FOPM演算法於兩製造節點整合 44 4.2 模型建構 48 4.3 實驗因子與架構 52 4.4 實驗結果 53 第五章 結論與建議 58 5.1 研究結論 58 5.2 未來研究建議 59 | |
dc.language.iso | zh-TW | |
dc.title | 考量等候時間限制之多階製造鏈整合 | zh_TW |
dc.title | Integration of Multi-stage Manufacturing Shops with Queue-time Constraint | en |
dc.type | Thesis | |
dc.date.schoolyear | 98-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 洪一薰(I-Hsuan Hong),黃奎隆(Kwei-Long Huang),楊烽正(Feng-ChengYang) | |
dc.subject.keyword | 半導體製造,製造整合,等候時間限制,靜態產能,前瞻視野, | zh_TW |
dc.subject.keyword | semiconductor manufacturing,integration of scheduling,static capacity,Queue-time limit,look-ahead information, | en |
dc.relation.page | 63 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2010-07-30 | |
dc.contributor.author-college | 工學院 | zh_TW |
dc.contributor.author-dept | 工業工程學研究所 | zh_TW |
顯示於系所單位: | 工業工程學研究所 |
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