Realization of User Level Fault Tolerant Policy Management through a Holistic Approach for Fault Correlation

Many modern scientific applications, which are designed to utilize high performance parallel computers, occupy hundreds of thousands of computational cores running for days or even weeks. Since many scientists compete for resources, most supercomputing centers practice strict scheduling policies and...

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Bibliographic Details
Published in2011 International Symposium on Policies for Distributed Systems and Networks pp. 17 - 24
Main Authors Park, B. H., Naughton, T. J., Agarwal, P., Bernholdt, D. E., Geist, A., Tippens, J. L.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.06.2011
Subjects
Biomedical monitoring
Correlation
Fault tolerance
Fault tolerant systems
Monitoring
Registers
Software
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ISBN1424498791
9781424498796
DOI10.1109/POLICY.2011.34

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Summary:Many modern scientific applications, which are designed to utilize high performance parallel computers, occupy hundreds of thousands of computational cores running for days or even weeks. Since many scientists compete for resources, most supercomputing centers practice strict scheduling policies and perform meticulous accounting on their usage. Thus computing resources and time assigned to a user is considered invaluable. However, most applications are not well prepared for unforeseeable faults, still relying on primitive fault tolerance techniques. Considering that ever-plunging mean time to interrupt (MTTI) is making scientific applications more vulnerable to faults, it is increasingly important to provide users not only an improved fault tolerant environment, but also a framework to support their own fault tolerance policies so that their allocation times can be best utilized. This paper addresses a user level fault tolerance policy management based on a holistic approach to digest and correlate fault related information. It introduces simple semantics with which users express their policies on faults, and illustrates how event correlation techniques can be applied to manage and determine the most preferable user policies. The paper also discusses an implementation of the framework using open source software, and demonstrates, as an example, how a molecular dynamics simulation application running on the institutional cluster at Oak Ridge National Laboratory benefits from it.
ISBN:1424498791
9781424498796
DOI:10.1109/POLICY.2011.34