Pre-project facility and layout planning for setting up cost effective wafer bumping processes

颠簸 洁净室 可制造性设计 制造工程 计算机科学 卓越运营 工程类 系统工程 机械工程 过程管理 物理 量子力学
作者
Meng-Chiou Wu,Yu-In Jin,Ser Tong Quek,Shih‐Chang Huang
标识
DOI:10.1109/iemt.2003.1225928
摘要

With the emergence of flip chip technologies in semiconductor assembly, a great deal of attention has been given to infrastructures such as wafer bumping services, equipment manufacturers, material and substrate suppliers. Little has been said about facility planning and design for flip chip processes. When rapid shifts in technology take place, optimum planning of facility layout is of great importance for productive manufacturing processes in term of cycle time, yield, quality control, and sustainability. This paper explores a facility layout design using Simplified Systematic Layout Planning (SSLP) techniques prior to the wafer bumping setup. Other techniques such as experiential, cloning, strategic or Bottom-up are difficult, if not impossible, to be applied in a process with new technological requirements. In this study, a "ball room" design is compared with "cellular" design by analyzing four basic elements: space planning units (SPUs), affinities, space, and constraints at the Macro-Space Plan level. The cellular layout arrangement is more cost effective than the ballroom design, however at the expense of its flexibility for future changes and upgrading. In this case, a low value-added space ratio is used to compensate the inflexibility. Differentiated cleanroom modules are designed for the sub-processes of wafer bumping so that the areas of high-grade cleanroom (ISO Class 5) are minimized. The final layout plan is further evaluated by using positive-negative-interesting (PNI) and material flow analysis (MFA) tools. In addition, special attention is paid to the integration of new and existing processes.
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