DocumentCode
2237340
Title
PROOF - The Parallel ROOT Facility
Author
Bellenot, B. ; Brun, R. ; Ganis, Gerardo ; Iwaszkiewicz, J. ; Kickinger, G. ; Peters, A.J. ; Rademakers, F. ; Ballintijn, M. ; Loizides, Charalambos ; Reed, C. ; Canal, P. ; Feichtinger, D.
Author_Institution
CERN, Geneva
fYear
0
fDate
0-0 0
Firstpage
379
Lastpage
380
Abstract
The parallel ROOT facility, PROOF, enables the interactive analysis of distributed data sets in a transparent way. It exploits the inherent parallelism in data sets of uncorrelated events via a multi-tier architecture that optimizes I/O and CPU utilization in heterogeneous clusters with distributed storage. On a grid, PROOF can use the available services to find out the location of data to analyze and the resources to use. Dedicated PROOF-enabled test-beds are now being deployed for testing by the LHC experiments. Being part of the ROOT framework PROOF inherits the benefits of a high performance object-oriented storage system and a wealth of statistical and visualization tools. The basic ideas and architecture underlying the PROOF project are described, together with the status of the project, focusing mostly on the issues of data access optimization, scheduling of user sessions and user interface
Keywords
data analysis; data models; data visualisation; distributed databases; graphical user interfaces; grid computing; object-oriented databases; tree data structures; CPU utilization; I/O utilization; PROOF; data access optimization; distributed storage; grid computing; heterogeneous clusters; interactive distributed data set analysis; multi-tier architecture; parallel ROOT facility; statistical tool; user interface; user session scheduling; visualization tool; Data analysis; Data models; Data visualization; Distributed computing; Irrigation; Large Hadron Collider; Parallel processing; Processor scheduling; Testing; User interfaces;
fLanguage
English
Publisher
ieee
Conference_Titel
High Performance Distributed Computing, 2006 15th IEEE International Symposium on
Conference_Location
Paris
ISSN
1082-8907
Print_ISBN
1-4244-0307-3
Type
conf
DOI
10.1109/HPDC.2006.1652193
Filename
1652193
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