Performance prediction for a code with data-dependent runtimes

S. A. Jarvis; B. P. Foley; P. J. Isitt; D. P. Spooner; D. Rueckert; G. R. Nudd

doi:10.1002/cpe.1191

Performance prediction for a code with data-dependent runtimes

S. A. Jarvis^*, B. P. Foley, P. J. Isitt, D. P. Spooner, D. Rueckert, G. R. Nudd

^*Corresponding author for this work

Engineering and Physical Sciences

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

In this paper we present a predictive performance model for a key biomedical imaging application found as part of the U.K. e-Science Information eXtraction from Images (IXI) project. This code represents a significant challenge for our existing performance prediction tools as it has internal structures that exhibit highly variable runtimes depending on qualities in the input data provided. Since the runtime can vary by more than an order of magnitude, it has been difficult to apply meaningful quality of service criteria to workflows that use this code. The model developed here is used in the context of an interactive scheduling system which provides rapid feedback to the users, allowing them to tailor their workloads to available resources or to allocate extra resources to scheduled workloads.

Original language	English
Pages (from-to)	195-206
Number of pages	12
Journal	Concurrency Computation Practice and Experience
Volume	20
Issue number	3
DOIs	https://doi.org/10.1002/cpe.1191
Publication status	Published - 10 Mar 2008

Keywords

Cluster computing
Grid computing
Medical image processing
Performance prediction

ASJC Scopus subject areas

Theoretical Computer Science
Software
Computer Science Applications
Computer Networks and Communications
Computational Theory and Mathematics

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10.1002/cpe.1191

Cite this

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title = "Performance prediction for a code with data-dependent runtimes",

abstract = "In this paper we present a predictive performance model for a key biomedical imaging application found as part of the U.K. e-Science Information eXtraction from Images (IXI) project. This code represents a significant challenge for our existing performance prediction tools as it has internal structures that exhibit highly variable runtimes depending on qualities in the input data provided. Since the runtime can vary by more than an order of magnitude, it has been difficult to apply meaningful quality of service criteria to workflows that use this code. The model developed here is used in the context of an interactive scheduling system which provides rapid feedback to the users, allowing them to tailor their workloads to available resources or to allocate extra resources to scheduled workloads.",

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AU - Jarvis, S. A.

AU - Foley, B. P.

AU - Isitt, P. J.

AU - Spooner, D. P.

AU - Rueckert, D.

AU - Nudd, G. R.

PY - 2008/3/10

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N2 - In this paper we present a predictive performance model for a key biomedical imaging application found as part of the U.K. e-Science Information eXtraction from Images (IXI) project. This code represents a significant challenge for our existing performance prediction tools as it has internal structures that exhibit highly variable runtimes depending on qualities in the input data provided. Since the runtime can vary by more than an order of magnitude, it has been difficult to apply meaningful quality of service criteria to workflows that use this code. The model developed here is used in the context of an interactive scheduling system which provides rapid feedback to the users, allowing them to tailor their workloads to available resources or to allocate extra resources to scheduled workloads.

AB - In this paper we present a predictive performance model for a key biomedical imaging application found as part of the U.K. e-Science Information eXtraction from Images (IXI) project. This code represents a significant challenge for our existing performance prediction tools as it has internal structures that exhibit highly variable runtimes depending on qualities in the input data provided. Since the runtime can vary by more than an order of magnitude, it has been difficult to apply meaningful quality of service criteria to workflows that use this code. The model developed here is used in the context of an interactive scheduling system which provides rapid feedback to the users, allowing them to tailor their workloads to available resources or to allocate extra resources to scheduled workloads.

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Performance prediction for a code with data-dependent runtimes

Abstract

Keywords

ASJC Scopus subject areas

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