Abstract is missing.
- Jini and the GridMark Baker, Zoltan Juhasz. 2 [doi]
- Three Tools to Help with Cluster and Grid Computing: SANS-Effort, PAPI, and NetSolveJack Dongarra. 3 [doi]
- LDAP and the GridPeter Gietz. 4 [doi]
- Cluster ToolsStephen Scott. 5 [doi]
- The Philosophy of TeraGrid: Building an Open, Extensible, Distributed TeraScale FacilityCharlie Catlett. 8 [doi]
- Distributed Computing Technologies and Their Application to Drug DiscoveryAndrew A. Chien. 9 [doi]
- From the Higgs Particle to Technology, From the Web to the Grid: Fundamental Science, Technology, and International CooperationHans F. Hoffmann. 10-11 [doi]
- Drug Discovery on Cluster FarmsReinhard Schneider. 12 [doi]
- Visualization and VR for the GridChris Johnson. 13 [doi]
- A Report from the U.S. National Science Foundation Blue Ribbon Panel on CyberinfrastructureDaniel E. Atkins. 16-17 [doi]
- Grids Deployment at the Crossroads - An Update on the EU-Funded Research EffortsKyriakos Baxevanidis. 18 [doi]
- Adaptive Scheduling under Memory Pressure on Multiprogrammed ClusterDimitrios S. Nikolopoulos, Constantine D. Polychronopoulos. 22-29 [doi]
- User-Centric Performance Analysis of Market-Based Cluster Batch SchedulersBrent N. Chun, David E. Culler. 30-38 [doi]
- On Advantages of Grid Computing for Parallel Job SchedulingCarsten Ernemann, Volker Hamscher, Uwe Schwiegelshohn, Ramin Yahyapour, Achim Streit. 39 [doi]
- Representing Dynamic Performance Information in Grid Environments with the Network Weather ServiceD. Martin Swany, Richard Wolski. 48-56 [doi]
- Neptune: A Dynamic Resource Allocation and Planning System for a Cluster Computing UtilityDonald P. Pazel, Tamar Eilam, Liana L. Fong, Michael H. Kalantar, Karen Appleby, Germán S. Goldszmidt. 57-64 [doi]
- Tracing a Large-Scale Peer to Peer System: An Hour in the Life of GnutellaEvangelos P. Markatos. 65-74 [doi]
- RVision: An Open and High Configurable Tool for Cluster MonitoringTiago C. Ferreto, César A. F. De Rose, Luiz De Rose. 75 [doi]
- Implementing Data Cube Construction using a Cluster Middleware: Algorithms, Implementation Experience, and Performance EvaluationGe Yang, Ruoming Jin, Gagan Agrawal. 84-92 [doi]
- On the Migration of the Scientific Code Dyana from SMPs to Clusters of PCs and on to the GridMichela Taufer, Thomas Stricker, Gerard Roos, Peter Güntert. 93-101 [doi]
- Grid Datafarm Architecture for Petascale Data Intensive ComputingOsamu Tatebe, Youhei Morita, Satoshi Matsuoka, Noriyuki Soda, Satoshi Sekiguchi. 102-110 [doi]
- A Grid Application for an Evaluation of Brain Function using Independent Component Analysis (ICA)Yuko Mizuno-Matsumoto, Susumu Date, Takeshi Kaishima, Youki Kadobayashi, Shinji Shimojo. 111 [doi]
- Using TOP-C and AMPIC to Port Large Parallel Applications to the Computational GridGene Cooperman, Henri Casanova, Jim Hayes, Thomas Witzel. 120-127 [doi]
- The gSOAP Toolkit for Web Services and Peer-to-Peer Computing NetworksRobert van Engelen, Kyle Gallivan. 128-135 [doi]
- Symphony - A Java-Based Composition and Manipulation Framework for Computational GridsMarkus Lorch, Dennis G. Kafura. 136-143 [doi]
- PadicoTM: An Open Integration Framework for Communication Middleware and RuntimesAlexandre Denis, Christian Pérez, Thierry Priol. 144 [doi]
- Multiple Query Optimization for Data Analysis Applications on Clusters of SMPsHenrique Andrade, Tahsin M. Kurç, Alan Sussman, Joel H. Saltz. 154-162 [doi]
- MS-I/O: A Distributed Multi-Storage I/O SystemXiaohui Shen, Alok N. Choudhary. 163-172 [doi]
- The Cluster File System: Integration of High Performance Communication and I/O in ClustersRosario Cristaldi, Giulio Iannello, Francesco Delfino. 173-182 [doi]
- Sensitivity of Cluster File System Access to I/O Server SelectionAmy W. Apon, P. D. Wolinski, G. M. Amerson. 183 [doi]
- The Internet Backplane Protocol: A Study in Resource SharingAlessandro Bassi, Micah Beck, Graham E. Fagg, Terry Moore, James S. Plank, D. Martin Swany, Richard Wolski. 194-201 [doi]
- A Formal Framework for Defining Grid SystemsZsolt Németh, Vaidy S. Sunderam. 202-211 [doi]
- Virtual Private Grid: A Command Shell for Utilizing Hundreds of Machines EfficientlyKenji Kaneda, Kenjiro Taura, Akinori Yonezawa. 212-219 [doi]
- Agents for the Grid: A Comparison with Web Services (Part I: Transport Layer)Luc Moreau. 220 [doi]
- A Malleable-Job System for Timeshared Parallel MachinesLaxmikant V. Kalé, Sameer Kumar, Jayant DeSouza. 230-237 [doi]
- Efficient Utilization of Memory Mapped NICs onto Clusters using Pipelined SchedulesAristidis Sotiropoulos, Georgios Tsoukalas, Nectarios Koziris. 238-246 [doi]
- SMiLE: An Integrated, Multi-Paradigm Software Infrastructure for SCI-Based ClustersMartin Schulz, Jie Tao, Carsten Trinitis, Wolfgang Karl. 247-254 [doi]
- M-JavaMPI: A Java-MPI Binding with Process Migration SupportRicky K. K. Ma, Cho-Li Wang, Francis C. M. Lau. 255 [doi]
- MAPFS_MAS: A Model of Interaction among Information Retrieval AgentsMaría S. Pérez, Félix García, Jesús Carretero. 264-265 [doi]
- Scheduling Co-Reservations with Priorities in Grid Computing SystemsRui Min, Muthucumaru Maheswaran. 266-267 [doi]
- Study of Load Balancing Issues Based on Intra-Movie Skewness for Parallel Video ServersSong Wu, Hai Jin. 268-269 [doi]
- Brain Activity Detection in Functional Magnetic Resonance Imaging on Heterogeneous ClusterJuan Antonio Hernández Tamames, José Luis Bosque, J. Canto. 270-271 [doi]
- Exploiting Web Technologies for Grid ArchitectureGang Xue, Matt J. Fairman, Simon J. Cox. 272-273 [doi]
- A Novel Architecture for Grid Information SystemsZoltán Balaton, Gabor Gombás, Zsolt Németh. 274-275 [doi]
- Load Balancing by Remote Execution of Short Processes on Linux ClustersMartin Kacer, Pavel Tvrdík. 276-277 [doi]
- The Virtual Laboratory: A Toolset for Utilising the World-Wide Grid to Design DrugRajkumar Buyya, Kim Branson, Jonathan Giddy, David Abramson. 278-279 [doi]
- Nomadic Migration: Fault Tolerance in a Disruptive Grid EnvironmentGerd Lanfermann, Gabrielle Allen, Thomas Radke, Edward Seidel. 280-281 [doi]
- PVM Emulation in the Harness Metacomputing Framework - Design and Performance EvaluationDawid Kurzyniec, Vaidy S. Sunderam, Mauro Migliardi. 282-283 [doi]
- Accounting and Accountability for Distributed and Grid SystemsLaura F. McGinnis, William Thigpen, Thomas J. Hacker. 284-285 [doi]
- Scalable Algorithms for Complete Exchange on Multi-Cluster NetworksAlfredo Goldman. 286 [doi]
- Grid Computing, A Vendor s VisionWolfgang Gentzsch. 290-295 [doi]
- The Emerging Information Power Grid: From Distributed P2P Computing to e-UtilitiesJuan Jose Port. 296 [doi]
- GridDemo: International Workshop on Live Demonstrations of Grid Technologies and ApplicationsPéter Kacsuk, Rajkumar Buyya. 298 [doi]
- Towards Compliant Distributed Shared MemoryKatrina E. Falkner, Henry Detmold, David S. Munro, Travis Olds. 305-310 [doi]
- The Virtual Shared Memory Performance of a Parallel Graph ReduceHans-Wolfgang Loidl. 311-318 [doi]
- Overcoming the Problems Associated with the Existence of Too Many DSM APIsMartin Schulz. 319-324 [doi]
- Process Migration Based on Gobelins Distributed Shared MemoryGeoffroy Vallée, Christine Morin, Renaud Lottiaux, Jean-Yves Berthou, Ivan Dutka Malhen. 325-330 [doi]
- Optimistic Synchronization and Transactional ConsistencyMoritz Wende, Michael Schöttner, Ralph Göckelmann, T. Bindhammer, Peter Schulthess. 331 [doi]
- Towards an Economy-Based Optimisation of File Access and Replication on a Data GridMark James Carman, Floriano Zini, Luciano Serafini, Kurt Stockinger. 340-345 [doi]
- Scalability Analysis of the Contract Net ProtocolZoltan Juhasz, Prasenjit Paul. 346-347 [doi]
- Monitoring and Controlling Distributed Applications with Relocatable ObjectsStephen Gilmore, Marco A. Palomino. 348-349 [doi]
- Agent-Based Resource Management for Grid ComputingJunwei Cao, Daniel P. Spooner, James D. Turner, Stephen A. Jarvis, Darren J. Kerbyson, Subhash Saini, Graham R. Nudd. 350-351 [doi]
- Using Mobile Agents for Software Distribution and Maintenance: Autonomous Stations Capable of Securely Executing Dynamically Uploaded ApplicationsWalter Binder. 352-353 [doi]
- Agents Based Load Balancing with Component Distribution CapabilitySasa Desic, Darko Huljenic. 354-358 [doi]
- Self-Organizing Control in Plantetary-Scale ComputingArtur Andrzejak, Sven Graupner, Vadim E. Kotov, Holger Trinks. 359 [doi]
- A Framework for Classifying Peer-to-Peer TechnologiesKrishna Kant, Ravishankar K. Iyer, Vijay Tewari. 368-375 [doi]
- Improving Data Availability through Dynamic Model-Driven Replication in Large Peer-to-Peer CommunitiesKavitha Ranganathan, Adriana Iamnitchi, Ian T. Foster. 376-381 [doi]
- NEVRLATE: Scalable Resource DiscoveryAjay Chander, Steven Dawson, Patrick Lincoln, David W. J. Stringer-Calvert. 382-388 [doi]
- Maintaining Connectivity in a Scalable and Robust Distributed EnvironmentMárk Jelasity, Mike Preuß, Maarten van Steen, Ben Paechter. 389-394 [doi]
- JM: A Jini Framework for Global ComputingZoltan Juhasz, Arpad Andics, Szabolcs Pota. 395-400 [doi]
- Motivating Computational GridsDavid B. Skillicorn. 401-406 [doi]
- Latency Performance of SOAP ImplementationsDan Davis, Manish Parashar. 407-412 [doi]
- Experiments of Network Throughput Measurement and Forecasting Using the Network WeatherPascale Primet, Robert Harakaly, Franck Bonnassieux. 413-418 [doi]
- End-Host Multicast Communication Using Switch-Trees ProtocolsDavid A. Helder, Sugih Jamin. 419-424 [doi]
- evolution@home: Experiences with Work Units That Span More than 7 Orders of Magnitude in Computational ComplexityLaurence Loewe. 425-431 [doi]
- Java CogletsDarren Webb, Andrew L. Wendelborn. 432-433 [doi]
- Bayanihan Computing .NET: Grid Computing with XML Web ServicesLuis F. G. Sarmenta, Sandra J. V. Chua, Paul Echevarria, Jose M. Mendoza, Rene-Russelle Santos, Stanley Tan, Richard Lozada. 434-435 [doi]
- Negotiating Agents in a Market-Oriented GridKuo-Ming Chao, Rachid Anane, Jen-Hsiang Chen, Richard A. Gatward. 436-437 [doi]
- Handling Multimedia Objects in Peer-to-Peer NetworksVana Kalogeraki, Alex Delis, Dimitrios Gunopulos. 438-439 [doi]
- Developing Distributed Data Mining Implementations for a Grid EnvironmentWei Du, Gagan Agrawal. 440-441 [doi]
- CatNet: Catallactic Mechanisms for Service Control and Resource Allocation in Large-Scale Application-Layer NetworksOscar Ardaiz, Felix Freitag, Leandro Navarro, Torsten Eymann, Michael Reinicke. 442-443 [doi]
- A Study of Discovery Mechanisms for Peer-to-Peer ApplicationsMandar Kelaskar, Vincent Matossian, Preeti Mehra, Dennis Paul, Manish Parashar. 444-445 [doi]
- Logistical Networking: When Institutions PeerAlessandro Bassi, Micah Beck, Terry Moore, James S. Plank. 446 [doi]
- Towards Trust-Aware Resource Management in Grid Computing SystemsFarag Azzedin, Muthucumaru Maheswaran. 452-457 [doi]
- IPSec and DNSSEC to Support GRID Application SecurityVan Le, Hervé Guyennet. 458 [doi]
- Invisible Network: Concepts and ArchitectureMuthucumaru Maheswaran, Balasubramaneyam Maniymaran, Paul Card, Farag Azzedin. 464-469 [doi]
- The iDorm - A Practical Deployment of Grid TechnologyAnthony Pounds-Cornish, Arran Holme. 470-476 [doi]