Browse > Article

A Study of Strategy for Planning of Rework in Semiconductor Monitoring Burn-in Test Process  

Lee, Do-Hoon (Samsung Electronics Co., Ltd)
Ko, Hyo-Heon (Department of Industrial Systems and Information Engineering, Korea University)
Kim, Sung-Shick (Department of Industrial Systems and Information Engineering, Korea University)
Publication Information
IE interfaces / v.18, no.3, 2005 , pp. 350-360 More about this Journal
Abstract
This paper considers a strategy for planning of rework in semiconductor monitoring burn-in test process. The equipment error in monitoring burn-in test process generates many defects. These defects are transformed into good products by rework process, i.e. retest. Rework has the advantage of saving production costs. But rework increases holding costs and incurs rework costs. In monitoring burn-in test process, rework depends on operator's experience with no pre-defined specification. In practice, a number of rework activities are performed with respect to the product importance and inventory quantity. Moreover, disregard for order jobs schedule have caused due date penalties. So a strategy for planning of rework by which order jobs schedule are not affected is suggested. Futhermore, production costs, rework costs and inventory costs for planning of rework are considered.
Keywords
MBT; rework; semiconductor;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Flapper, SD.P., Fransoo, J. C, Broekmeulen, R A. C M., lnderfurth, K. (2002), Planning and control of reworking in the process industries : a review, Production planning & control, 13(1), 26-34   DOI   ScienceOn
2 Liu, J.J., Ping, Y. (1996), Optimal lot-sizing in an imperfect production system with homogeneous reworkable jobs, European Journal of operational research, 91(3),517-527   DOI   ScienceOn
3 Flapper, S.D.P., Teunter, RH. (2004), Logistics planning of rework with deteriorating work-in-process, lntemational Journal of prodttition economics, 88(1),51-59   DOI   ScienceOn
4 Hayek, P. A., Salameh, M. K. (2001), Production lot sizing with the reworking of imperfect quality items produced, Production planning & control, 12(6), 584-590   DOI   ScienceOn
5 Abdel-Malek, L., Asadathorn, N. (1996), An analytical approach to process planning with rework option, International journal of production economics, 46/47(COM),511-520   DOI   ScienceOn
6 Giri, B.C, Moon, I., Yun, W.Y. (2003), Scheduling economic lot sizes in deteriorating production systems, Naval research logistus, 50(6), 650-661   DOI   ScienceOn
7 Jamal, A.M.M., Sackec, B.R, Mondal, S. (2004), Optimal manufacturing batch size with rework process at a single-stage producrion system, Computers & industrial engineering, 47(1)77-89   DOI   ScienceOn
8 Chiu, Y. P. (2003), Determining the Optimal Lot Size for the Finite Production Model with Random Defective Rate, the Rework Process, and Backlogging, Engineering optimization, 35(4), 427-438   DOI   ScienceOn
9 H.Teunter, Ruud, Flapper, Simme Douwe P. (2003), Lot-sizing for a singlestage single-product production system wirh rework of perishable production defectives, OR Spektrum : Organ der Deutschen Gesellschaft fur Operations Research, 25(1), 85-96   DOI   ScienceOn
10 Gopalan, M.N., Karman, S. (1994), Multi-type Rework in Two-stage Production Systems, The International journal of quality & reliability management, 11(6), 38-49
11 Gopalan, M.N., Karman, S. (1996), Probability of first passage analysis of a two-stage transfer-line production system with storage and rework, Microelectronics and reliability, 36(3),403-407   DOI   ScienceOn