CaltechAUTHORS
Published 2005 | public
Journal Article Open

The UltraLight Project: The Network as an Integrated and Managed Resource in Grid Systems for High Energy Physics and Data Intensive Science

Newman, Harvey ORCID icon
Bunn, Julian ORCID icon
Cavanaugh, Richard
Legrand, Iosif
Low, Steven ORCID icon
McKee, Shawn
Nae, Dan
Ravot, Sylvan
Steenberg, Conrad
Su, Xun
Thomas, Michael
van Lingen, Frank
Xia, Yang
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Abstract

We describe the NSF-funded UltraLight project. The project's goal is to meet the data-intensive computing challenges of the next generation of particle physics experiments with a comprehensive, network-focused agenda. In particular we argue that instead of treating the network traditionally, as a static, unchanging and unmanaged set of inter-computer links, we instead will use it as a dynamic, configurable, and closely monitored resource, managed end-to-end, to construct a next-generation global system able to meet the data processing, distribution, access and analysis needs of the high energy physics (HEP) community. While the initial UltraLight implementation and services architecture is being developed to serve HEP, we expect many of UltraLight's developments in the areas of networking, monitoring, management, and collaborative research, to be applicable to many fields of data intensive e-science. In this paper we give an overview of, and motivation for the UltraLight project, and provide early results within different working areas of the project.

Additional Information

This work is partly supported by the Department of Energy grants: DE-FC02-01ER25459, DE-FG03-92-ER40701, DE-AC02-76CH03000 as part of the Particle Physics DataGrid project, DE-FG02-04ER-25613 as part of Lambda Station, and by the National Science Foundation grants: ANI-0230967, PHY-0218937, PHY-0122557, PHY-0427110, ANI-0113425, ANI-0230967, EIA-0303620, by the ARO grants: DAAD19-02-1-0283, F49620-03-1-0119 and the AFOSR grants: F49620-03-1-0119. We would also like to acknowledge the generous support of Cisco. Any opinions, findings, conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the Department of Energy or the National Science Foundation.

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