论文信息 - Rescheduling to minimize makespan on a changing number of identical processors

Rescheduling to minimize makespan on a changing number of identical processors

We consider the problem of rescheduling n jobs to minimize the makespan on m parallel identical processors when m changes value. We show this problem to be NP-hard in general. Call a list schedule totally optimal if it is optimal for all m = 1, …,n. When n is less than 6, there always exists a totally optimal schedule, but for n ≥ 6 this can fail. We show that an exact solution is less robust than the largest processing time first (LPT) heuristic and discuss implications for polynomial approximation schemes and hierarchical planning models.

Craig A. Tovey | C. Tovey

[1] B. J. Lageweg,et al. Analytical Evaluation of Hierarchical Planning Systems , 1981, Oper. Res..

[2] Gabriel R. Bitran,et al. ON THE DESIGN OF HIERARCHICAL PRODUCTION PLANNING SYSTEMS , 1977 .

[3] Gabriel R. Bitran,et al. Hierarchical Production Planning: A Single Stage System , 1981, Oper. Res..

[4] Ronald L. Graham,et al. Bounds for certain multiprocessing anomalies , 1966 .

[5] Ellis Horowitz,et al. Fundamentals of Computer Algorithms , 1978 .

[6] C. Tovey. Hill Climbing with Multiple Local Optima , 1985 .

[7] E.L. Lawler,et al. Optimization and Approximation in Deterministic Sequencing and Scheduling: a Survey , 1977 .

[8] Edward G. Coffman,et al. Computer and job-shop scheduling theory , 1976 .