DocumentCode
2310694
Title
Scheduling many-task workloads on supercomputers: Dealing with trailing tasks
Author
Armstrong, Timothy G. ; Zhang, Zhao ; Katz, Daniel S. ; Wilde, Michael ; Foster, Ian T.
Author_Institution
Dept. of Comput. Sci., Univ. of Chicago, Chicago, IL, USA
fYear
2010
fDate
15-15 Nov. 2010
Firstpage
1
Lastpage
10
Abstract
In order for many-task applications to be attractive candidates for running on high-end supercomputers, they must be able to benefit from the additional compute, I/O, and communication performance provided by high-end HPC hardware relative to clusters, grids, or clouds. Typically this means that the application should use the HPC resource in such a way that it can reduce time to solution beyond what is possible otherwise. Furthermore, it is necessary to make efficient use of the computational resources, achieving high levels of utilization. Satisfying these twin goals is not trivial, because while the parallelism in many task computations can vary over time, on many large machines the allocation policy requires that worker CPUs be provisioned and also relinquished in large blocks rather than individually. This paper discusses the problem in detail, explaining and characterizing the trade-off between utilization and time to solution under the allocation policies of Blue Gene/P Intrepid at Argonne National Laboratory. We propose and test two strategies to improve this trade-off: scheduling tasks in order of longest to shortest (applicable only if task runtimes are predictable) and downsizing allocations when utilization drops below some threshold. We show that both strategies are effective under different conditions.
Keywords
mainframes; multiprocessing systems; multiprogramming; parallel machines; processor scheduling; resource allocation; task analysis; Blue Gene/P Intrepid; CPU; high-end HPC; high-end supercomputer; many-task workload scheduling; resource utilization; task computation; trailing task problem; Many-task computing; highperformance computing; scheduling; supercomputer systems;
fLanguage
English
Publisher
ieee
Conference_Titel
Many-Task Computing on Grids and Supercomputers (MTAGS), 2010 IEEE Workshop on
Conference_Location
New Orleans, LA
Print_ISBN
978-1-4244-9704-1
Electronic_ISBN
978-1-4244-9705-8
Type
conf
DOI
10.1109/MTAGS.2010.5699433
Filename
5699433
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