In 450mm wafers production environment for next-generation semiconductor production, one of the most significant features is the adoption of full automation to the whole manufacturing processes involved. The full automation system applied to the whole manufacturing processes will prevent the workers from intervening the manufacturing processes as much as possible and increase the importance of each individual wafer noticeably, and thus require a more robust scheduling system for entire semiconductor manufacturing processes. The scheduling system for 450mm wafers production also should be capable of monitoring the status of each individual wafer and collecting useful fab data in real time. Based on data (or information) gathered in each process, the real-time scheduling system function efficiently to control the whole semiconductor manufacturing processes. In this study, we first carry out preliminary survey on the system requirements and the necessary functions for constructing the real time scheduling system with considering the changes from 300mm wafer production environment to 450mm wafer production environment, and then propose the scheduler system architectures for the cluster-type production processes which are the general in 450mm wafer production environment for the efficient production scheduling. The system architectures proposed in this study involve the modules for real-time scheduling, the modules for supporting the cluster-type production, the modules for finding optimal schedules, and so on. Also, we provide the specifications of the key required functions and capabilities of the modules and the relationship among the modules proposed.　

1. 서 론
 2. 클러스터 장비에 대한 스케줄링 기법에 대한 연구
 3. 차세대 스케줄링 시스템 요구사항
 4. 클러스터형 스케줄러 시스템
  4.1 클러스터형 스케줄러
  4.2 클러스터형 스케줄러 모듈
 5. 결론
 참고문헌

• 이현(한양대학교 공학대학 산업경영공학과)
• 허선(한양대학교 공학대학 산업경영공학과)
• 박유진(중앙대학교 사회과학대학 상경학부 경영학과)
• 이건우((주)미라콤아이앤씨)