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• VGrADS Papers
  • Scalable Grid Application Scheduling via Decoupled Resource Selection and Scheduling
  • Evaluation of a Workflow Scheduler Using Integrated Performance Modelling and Batch Queue Wait Time Prediction
  • Predicting Bounds on Queueing Delay in Space-shared Computing Environments
  • Solving "Hard" Satisfiability Problems using GridSAT
  • New Grid Scheduling and Rescheduling Methods in the GrADS Project
  • Toward a Tool for Scheduling Application Workflows onto Distributed Grid Systems
  • Application-level Resource Provisioning on the Grid
  • Realistic Large Scale Online Network Simulation
  • Characterizing and Evaluating Desktop Grids: An Empirical Study
  • Validating and Scaling the MicroGrid: A Scientific Instrument for Grid Dynamics
  • Modeling Machine Availability in Enterprise and Wide-area Distributed Computing Environments
  • The MicroGrid: Using Emulation to Predict Application Performance in Diverse Grid Network Environments
  • Quantifying Machine Availability in Networked and Desktop Grid Systems
  • Distributed Virtual Computer(DVC): Simplifying the Development of High Performance Grid Applications
  • GTP: Group Transport Protocol for Lambda-Grids
  • Evaluation of Rate-based Transport Protocols for Lambda-Grids
  • Study of an Accurate and Fast Protein-Ligand Docking Algorithm based on Molecular Dynamics
  • DGMonitor: a Performance Monitoring Tool for Sand-box based Desktop Grid Platforms
  • Realistic Modeling and Synthesis of Resources for Computational Grids
  • Relative Performance of Scheduling Algorithms in Grid Environments
  • Using Virtual Grids to Simplify Application Scheduling
  • Tailoring Graph Coloring Register Allocation for Runtime Compilation
  • The Impact of Multicore on Computational Science Software
  • Multi-Level Adaptation for Performability in Dynamic Web Service Workflows
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