- Marc Garbey:
Efficient Algorithm to Compute PDEs on the Grid. Grid-Based Problem Solving Environments 2006: 337-338 - Sebastien Goasguen:
Grid Architecture for Scientitic Communities. Grid-Based Problem Solving Environments 2006: 397 - William D. Gropp
:
Observations on WoCo9. Grid-Based Problem Solving Environments 2006: 451-453 - William Gropp, Eldad Haber, Stefan Heldmann, David E. Keyes, Neill Miller, Jennifer M. Schopf, Tianzhi Yang:
Grid-based Image Registration. Grid-Based Problem Solving Environments 2006: 435-448 - Thomas W. Jackson, Mark Jessop, Martyn Fletcher, Jim Austin:
A Virtual Organisation deployed on a Service Orientated Architecture for Distributed Data Mining applications. Grid-Based Problem Solving Environments 2006: 155-170 - Ken Kennedy:
Why Performance Models Matter for Grid Computing. Grid-Based Problem Solving Environments 2006: 19-29 - David E. Konerding, Keith R. Jackson:
PythonCLServiceTool: A Utility for Wrapping Command-Line Applications for The Grid. Grid-Based Problem Solving Environments 2006: 195-211 - Almerico Murli, Vania Boccia, Luisa Carracciuolo, Luisa D'Amore, Giuliano Laccetti, Marco Lapegna:
Monitoring and Migration of a PETSc-based Parallel Application for Medical Imaging in a Grid computing PSE. Grid-Based Problem Solving Environments 2006: 421-432 - Boyana Norris, Sanjukta Bhowmick, Dinesh K. Kaushik, Lois Curfman McInnes:
Middleware for Dynamic Adaptation of Component Applications. Grid-Based Problem Solving Environments 2006: 127-149 - Julian A. Padget, Omer F. Rana:
Mathematical Service Discovery. Grid-Based Problem Solving Environments 2006: 351-368 - David P. Schissel:
Service-oriented Computation in Magnetic Fusion Research. Grid-Based Problem Solving Environments 2006: 91-92 - Yogesh L. Simmhan, Sangmi Lee Pallickara, Nithya N. Vijayakumar, Beth Plale:
Data Management in Dynamic Environment-driven Computational Science. Grid-Based Problem Solving Environments 2006: 317-333 - Brian T. Smith:
A Test Harness TH for Numerical Applications and Libraries. Grid-Based Problem Solving Environments 2006: 227-241 - Brian T. Smith:
Future Directions for Numerical Software Research - Comments during Discussions at WoCo9, Prescott, AZ, July 16-21, 2006. Grid-Based Problem Solving Environments 2006: 455-457 - Jem Treadwell:
Open Grid Services Architecture. Grid-Based Problem Solving Environments 2006: 123 - Hitohide Usami, Hiroyuki Kanazawa, Shigeo Kawata:
A Problem Solving Environment based on Grid Services: NAREGI-PSE. Grid-Based Problem Solving Environments 2006: 375-390 - Mladen A. Vouk, Ilkay Altintas, Roselyne Barreto, J. Blondin, Zhengang Cheng, Terence Critchlow, Ayla Khan, Scott Klasky, J. Ligon, Bertram Ludäscher, Pierre Mouallem, Steven G. Parker, Norbert Podhorszki, Arie Shoshani, Cláudio T. Silva:
Automation of Network-Based Scientific Workflows. Grid-Based Problem Solving Environments 2006: 35-61 - David W. Walker:
Lessons Learned from the GECEM Project. Grid-Based Problem Solving Environments 2006: 95-111 - Asim YarKhan, Jack J. Dongarra, Keith Seymour:
GridSolve: The Evolution of A Network Enabled Solver. Grid-Based Problem Solving Environments 2006: 215-224 - Qingxuan Yin, Xiaoge Wang:
THCORE: A Parallel Computation Services Model and Runtime System. Grid-Based Problem Solving Environments 2006: 179-192 - 2001
- Ronald F. Boisvert, Ping Tak Peter Tang:
The Architecture of Scientific Software, IFIP TC2/WG2.5 Working Conference on the Architecture of Scientific Software, October 2-4, 2000, Ottawa, Canada. IFIP Conference Proceedings 188, Kluwer 2001, ISBN 0-7923-7339-1 [contents] - 2000
- Krister Åhlander, Magne Haveraaen, Hans Z. Munthe-Kaas:
On the Role of Mathematical Abstractions for Scientific Computing. The Architecture of Scientific Software 2000: 145-158 - Dorian C. Arnold, Jack J. Dongarra:
Developing an Architecture to Support the Implementation and Development of Scientific computing Applications. The Architecture of Scientific Software 2000: 39-56 - Dmitry Belyshev, Vladimir I. Gurman:
Software Architecture for the Investigation of Controllable Models with Complex Data Sets. The Architecture of Scientific Software 2000: 317-332 - Kristopher R. Buschelman, William Gropp, Lois C. McInnes, Barry F. Smith:
PETSc and Overture: Lessons Learned Developing an Interface between Components. The Architecture of Scientific Software 2000: 57-68 - José C. Cunha:
Future Generations of Problem-Solving Environments. The Architecture of Scientific Software 2000: 29-38 - Arnaud Desitter, Antoine Le Hyaric, Geoff Morgan, Gareth Shaw, Anne E. Trefethen:
Software Components for Application Development. The Architecture of Scientific Software 2000: 285-300 - Wayne H. Enright:
Hierarchical Representation and Computation of Approximate Solutions in Scientific Simulations. The Architecture of Scientific Software 2000: 301-316 - Thomas Epperly, Scott R. Kohn, Gary Kumfert:
Component Technology for High-Performance Scientific Simulation Software. The Architecture of Scientific Software 2000: 69-86 - Vladimir Getov:
A Mixed-Language Programming Methodology for High Performance Java Computing. The Architecture of Scientific Software 2000: 333-350
