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Issue No.03 - May/June (2010 vol.12)
pp: 52-61
Richard P. Bruin , University of Cambridge, UK
Xiaoyu Yang , University of Cambridge, UK
ABSTRACT
<p>Using an appropriate workflow platform and a service-oriented architecture can simplify the management of a grid-based scientific workflow life cycle. As this case study shows, such an approach can facilitate the successful creation, deployment, execution, and monitoring of a grid-based workflow for calculating material dielectric properties based on quantum mechanical simulation.</p>
INDEX TERMS
Service-oriented workflow, SOA, e-science, grid computing, Pipeline Pilot, workflow management, scientific computing
CITATION
Richard P. Bruin, Xiaoyu Yang, "Developing an End-to-End Scientific Workflow:", Computing in Science & Engineering, vol.12, no. 3, pp. 52-61, May/June 2010, doi:10.1109/MCSE.2010.61
REFERENCES
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4. W. Kulhanek and C. Serna, "WebSphere Process Server: IBM's New Foundation for SOA," IBM developerWorks, 2005; www.ibm.com/developerworks/websphere/library/ techarticles/0509_kulhanek0509_kulhanek.html .
5. A.M. Walker et al., "Integrating Computing, Data and Collaboration Grids: The RMCS Tool," Philosophical Trans. Royal Soc. A, vol. 367, no. 1890, 2009, pp. 1047–1050.
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