Web service and workflow abstractions to large scale nuclear physics calculations. Herath, C., Liu, F., Marru, S., Gunathilake, L., Sosonkina, M., Vary, J., P., Maris, P., & Pierce, M. In Proceedings - 2012 IEEE 9th International Conference on Services Computing, SCC 2012, pages 703-710, 2012.
Web service and workflow abstractions to large scale nuclear physics calculations [link]Website  doi  abstract   bibtex   
This paper discusses the web service and scientificworkflow abstractions to next generation ab initio computationalnuclear physics resources as part of the Leadership ClassConfiguration Interaction (LCCI) Environment. These abstractionswill rapidly and efficiently involve new collaboratorsand graduate students in productive research. The workflowinfrastructure democratizes the access to the nuclear physicssimulations executing on remote supercomputing resources.The paper focuses on employing an open community basedworkflow system in developing and deploying LCCI infrastructures.The paper also emphasizes on the enhancementsmade to infrastructure to add advanced workflow capabilitiesproviding greater flexibility in handling parametric sweeps andprovenance aware workflows. The paper discusses on how theprovenance integration will not only capture execution tracebut dynamically modify the workflow graph at run time tore-use retrospective execution results. © 2012 IEEE.
@inproceedings{
 title = {Web service and workflow abstractions to large scale nuclear physics calculations},
 type = {inproceedings},
 year = {2012},
 keywords = {Ab initio; Graduate students; Runtimes; Scientific,Abstracting; Nuclear physics; Students; Web servi,Calculations},
 pages = {703-710},
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 notes = {cited By 1; Conference of 2012 IEEE 9th International Conference on Services Computing, SCC 2012 ; Conference Date: 24 June 2012 Through 29 June 2012; Conference Code:93136},
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 abstract = {This paper discusses the web service and scientificworkflow abstractions to next generation ab initio computationalnuclear physics resources as part of the Leadership ClassConfiguration Interaction (LCCI) Environment. These abstractionswill rapidly and efficiently involve new collaboratorsand graduate students in productive research. The workflowinfrastructure democratizes the access to the nuclear physicssimulations executing on remote supercomputing resources.The paper focuses on employing an open community basedworkflow system in developing and deploying LCCI infrastructures.The paper also emphasizes on the enhancementsmade to infrastructure to add advanced workflow capabilitiesproviding greater flexibility in handling parametric sweeps andprovenance aware workflows. The paper discusses on how theprovenance integration will not only capture execution tracebut dynamically modify the workflow graph at run time tore-use retrospective execution results. © 2012 IEEE.},
 bibtype = {inproceedings},
 author = {Herath, C and Liu, F and Marru, S and Gunathilake, L and Sosonkina, M and Vary, J P and Maris, P and Pierce, M},
 doi = {10.1109/SCC.2012.112},
 booktitle = {Proceedings - 2012 IEEE 9th International Conference on Services Computing, SCC 2012}
}

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