A Multi-constraint Preemption Algorithm for Parallel Job Scheduling

Author

Hongbing, Luo ; Linping, Wu ; Wei, Wang

Author_Institution

High Performance Comput. Center, Inst. of Appl. Phys. & Computional Math., Beijing, China

fYear

2011

fDate

20-22 Oct. 2011

Firstpage

73

Lastpage

78

Abstract

Using effective scheduling strategies to improve turnaround time, slowdown, and utilization is an important consideration in large supercomputing environments. Since such machines have traditionally used non-preemption strategies to accommodate multiple jobs at the same time, a number of questions remain unanswered regarding the practical effect of preemptive scheduling. In this paper, we first discuss how to improve the turnaround time, slowdown, and utilization using an appropriate suspension criterion. We then develop a new multi-constraint preemptive scheduling algorithm (MCPS). Finally, we describe the experiments on a simulator with several realistic workloads. The experimental results show that MCPS is better than the conventional no-preemption strategies, and outperforms other preemptive scheduling strategies by its balanced performance.

Keywords

parallel machines; processor scheduling; MCPS; large supercomputing environments; large-scale parallel machines; multiconstraint preemptive scheduling algorithm; no-preemption strategies; parallel job scheduling; realistic workloads; slowdown improvement; suspension criterion; turnaround time improvement; utilization improvement; Measurement; Program processors; Scheduling; Scheduling algorithm; Supercomputers; Suspensions; paralle computer; parallel job scheduling; preemptive scheduling; scheduling policy;

fLanguage

English

Publisher

ieee

Conference_Titel

Parallel and Distributed Computing, Applications and Technologies (PDCAT), 2011 12th International Conference on

Conference_Location

Gwangju

Print_ISBN

978-1-4577-1807-6

Type

conf

DOI

10.1109/PDCAT.2011.7

Filename

6118960