Istituto di Scienza e Tecnologie dell'Informazione     
Baraglia R., Danelutto M., Laforenza D., Orlando S., Palmerini P., Perego R., Pesciullesi P., Vanneschi M. AssistConf: A Grid Configuration Tool for the ASSIST Parallel Programming Environment. In: Euromicro Conference on Parallel, Distributed and Network-Based (Genova, Italy, 5-7 February 2003). Proceedings, pp. 193 - 200. Andrea Clematis (ed.). IEEE Computer Society, 2003.
This paper presents ASSISTCONF, a graphical user interface designed to configure an ASSIST program and to run it on a Grid platform. ASSIST (A Software development System based upon Integrated Skeleton Technology) is a new programming environment for the development of parallel and distributed high-performance applications. The main goals of ASSIST are allowing high-level programmability and software productivity for complex multidisciplinary applications, and performance portability across different platforms, including homogenous parallel machines and cluster/Beowulf systems, heterogeneous clusters, and computational Grids. ASSISTCONF is used to configure the ASSIST program and to establish a mapping between the program modules and the most suitable machines in the Grid candidate to execute them. It simplifies the creation of the XML ASSIST configuration file giving users a graphical view of the XML file produced by the ASSIST compilation phase, and permitting an easy identification of the machines to be used for execution. Finally, the configuration file produced by ASSISTCONF is used as input to the assistrun command, which drives the execution of the ASSIST program on the Grid.
URL: http://csdl.computer.org/comp/proceedings/euro-pdp/2003/1875/00/18750193abs.htm
Subject Grid
Graphical configuration tool
Parallel programming
D.2.6. Programming Environment. Graphical environments

Icona documento 1) Download Document PDF

Icona documento Open access Icona documento Restricted Icona documento Private


Per ulteriori informazioni, contattare: Librarian http://puma.isti.cnr.it

Valid HTML 4.0 Transitional