Distributed and Parallel Systems: Cluster and Grid ComputingZoltan Juhasz, Peter Kacsuk, Dieter Kranzlmuller Springer Science & Business Media, 21/09/2004 - 211 من الصفحات DAPSY (Austrian-Hungarian Workshop on Distributed and Parallel Systems) is an international conference series with biannual events dedicated to all aspects of distributed and parallel computing. DAPSY started under a different name in 1992 (Sopron, Hungary) as regional meeting of Austrian and Hungarian researchers focusing on transputer-related parallel computing; a hot research topic of that time. A second workshop followed in 1994 (Budapest, Hungary). As transputers became history, the scope of the workshop widened to include parallel and distributed systems in general and the 1st DAPSYS in 1996 (Miskolc, Hungary) reflected the results of these changes. Distributed and Parallel Systems: Cluster and Grid Computing is an edited volume based on DAPSYS, 2004, the 5th Austrian-Hungarian Workshop on Distributed and Parallel Systems. The workshop was held in conjunction with EuroPVM/MPI-2004, Budapest, Hungary September 19-22, 2004. |
المحتوى
glogin Interactive Connectivity for the Grid | 3 |
Parallel Program Execution Support in the JGrid System | 13 |
Appproaches to Design a GridBased Virtual Laboratory | 21 |
Scheduling and Resource Brokering within the Grid Visualization Kernel | 29 |
Message Passing vs Virtual Shared Memory A Performance Comparison | 39 |
MPIIO with a Shared File Pointer Using A Parallel Virtual File System | 47 |
An Approach Toward MPI Applications in Wireless Networks | 55 |
Deploying Applications in MultiSAN SMP Clusters | 63 |
A Case Study | 121 |
Traffic Simulation in PGrade as a Grid Service | 129 |
Development of a Grid Enabled Chemistry Application | 137 |
Supporting Native Applications in WebcomG | 147 |
Grid Solution for EMarketplaces Integrated with Logistics | 155 |
Incremental Placement of Nodes | 165 |
Component Based Flight Simulation in Dis Systems | 173 |
Management of Communication Environments for Minimally Synchronous Parallel ML | 185 |
Monitoring and Program Analysis Activities with DeWiz | 73 |
Integration of Formal Verification and Debugging Methods in PGrade Environment | 83 |
Tools for Scalable Parallel Program AnalysisVampiring and Dewiz | 93 |
Process Migration in Clusters and Cluster Grids | 103 |
Graphical Design of Parallel Programs With Control Based on Global Application States Using an Extended PGRADE Systems | 113 |
Analysis of the MultiPhase Copying Garbage Collection Algorithm | 193 |
A Concurrent Implementation of Simulated Annealing and its Application to the VRPTW Optimization Problem | 201 |
Author Index | |