Transparent Access to Scientific and Commercial Clouds from the Kepler Workflow Engine

Marcus Hardt; Thomas Jejkal; Isabel Campos; Enol Fernandez; Adrian Jackson; Daniel Nielsson; Bartek Palak; Marcin Płociennik

Marcus Hardt ; Thomas Jejkal ; Isabel Campos ; Enol Fernandez ; Adrian Jackson ; Daniel Nielsson ; Bartek Palak ; Marcin Płociennik

Computing and Informatics, Tome 28 (2012) no. 1, / Harvested from Computing and Informatics

Text on Computing and Informatics

Résumé

his paper describes the architecture for transparently using several different Cloud Resources from with the graphical Kepler Worklfow environment. This architecture was proven to work by implementing and using it in practice within the FP7 EUFORIA project. The clouds supported are the Open Source cloud OpenNEbula (ONE) environment and the commercial Amazon Elastic Compute Cloud (EC2). Subsequently, these clouds are compared regarding their cost-effectiveness, which covers a performance examination but also the comparison of the commercial against a scientific cloud provider.

Publié le : 2012-06-20
Classification: Cloud; Amazon; EC2; AWS; Kepler; workflow; OpenNEbula; ONE

@article{cai891,
     author = {Marcus Hardt and Thomas Jejkal and Isabel Campos and Enol Fernandez and Adrian Jackson and Daniel Nielsson and Bartek Palak and Marcin P\l ociennik},
     title = {Transparent Access to Scientific and Commercial Clouds from the Kepler Workflow Engine},
     journal = {Computing and Informatics},
     volume = {28},
     number = {1},
     year = {2012},
     language = {en},
     url = {http://dml.mathdoc.fr/item/cai891}
}

Marcus Hardt; Thomas Jejkal; Isabel Campos; Enol Fernandez; Adrian Jackson; Daniel Nielsson; Bartek Palak; Marcin Płociennik. Transparent Access to Scientific and Commercial Clouds from the Kepler Workflow Engine. Computing and Informatics, Tome 28 (2012) no. 1, . http://gdmltest.u-ga.fr/item/cai891/