Early experience on using glideinWMS in the cloud

Cloud computing is steadily gaining traction both in commercial and research worlds, and there seems to be significant potential to the HEP community as well. However, most of the tools used in the HEP community are tailored to the current computing model, which is based on grid computing. One such...

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Veröffentlicht in:	Journal of physics. Conference series 2011-12, Vol.331 (6), p.062014-6
Hauptverfasser:	Andrews, W, Bockelman, B, Bradley, D, Dost, J, Evans, D, Fisk, I, Frey, J, Holzman, B, Livny, M, Martin, T, McCrea, A, Melo, A, Metson, S, Pi, H, Sfiligoi, I, Sheldon, P, Tannenbaum, T, Tiradani, A, Würthwein, F, Weitzel, D
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Sprache:	eng
Schlagworte:	Benchmarks Cloud computing Clouds Communities Computational grids Computer programs Management systems Physics Software Traction Workload
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creator	Andrews, W Bockelman, B Bradley, D Dost, J Evans, D Fisk, I Frey, J Holzman, B Livny, M Martin, T McCrea, A Melo, A Metson, S Pi, H Sfiligoi, I Sheldon, P Tannenbaum, T Tiradani, A Würthwein, F Weitzel, D
description	Cloud computing is steadily gaining traction both in commercial and research worlds, and there seems to be significant potential to the HEP community as well. However, most of the tools used in the HEP community are tailored to the current computing model, which is based on grid computing. One such tool is glideinWMS, a pilot-based workload management system. In this paper we present both what code changes were needed to make it work in the cloud world, as well as what architectural problems we encountered and how we solved them. Benchmarks comparing grid, Magellan, and Amazon EC2 resources are also included.
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title	Early experience on using glideinWMS in the cloud
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