Abstract is missing.
- Virtualization in Grids: A Semantical ApproachZsolt Németh, Vaidy S. Sunderam. 1-18 [doi]
- Using Event Models in Grid DesignAnthony Finkelstein, Joe Lewis-Bowen, Giacomo Piccinelli, Wolfgang Emmerich. 19-44 [doi]
- Intelligent GridsXin Bai, Han Yu, Guoqiang Wang, Yongchang Ji, Gabriela M. Marinescu, Dan C. Marinescu, Ladislau Bölöni. 45-74 [doi]
- A Grid Software ProcessGiovanni Aloisio, Massimo Cafaro, Italo Epicoco. 75-98 [doi]
- Grid Programming with Java, RMI, and SkeletonsSergei Gorlatch, Martin Alt. 99-125 [doi]
- A Review of Grid Portal TechnologyMaozhen Li, Mark A. Baker. 126-156 [doi]
- A Framework for Loosely Coupled Applications on Grid EnvironmentsAndreas Hoheisel, Thilo Ernst, Uwe Der. 157-175 [doi]
- Toward GRIDLE: A Way to Build Grid Applications Searching Through an Ecosystem of ComponentsDiego Puppin, Fabrizio Silvestri, Salvatore Orlando, Domenico Laforenza. 176-204 [doi]
- Programming, Composing, Deploying for the GridLaurent Baduel, Françoise Baude, Denis Caromel, Arnaud Contes, Fabrice Huet, Matthieu Morel, Romain Quilici. 205-229 [doi]
- ASSIST As a Research Framework for High-Performance Grid Programming EnvironmentsMarco Aldinucci, Massimo Coppola, Marco Vanneschi, Corrado Zoccolo, Marco Danelutto. 230-256 [doi]
- A Visual Programming Environment for Developing Complex Grid ApplicationsAntonio Congiusta, Domenico Talia, Paolo Trunfio. 257-283 [doi]
- Solving Computationally Intensive Engineering Problems on the Grid Using Problem Solving EnvironmentsChristopher E. Goodyer, Martin Berzins. 284-301 [doi]
- Design Principles for a Grid-enabled Problem-solving Environment to Be Used by EngineersGraeme E. Pound, Simon J. Cox. 302-313 [doi]
- Toward the Utilization of Grid Computing in Electronic LearningVictor Pankratius, Gottfried Vossen. 314-331 [doi]