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ORCIDThe Architecture of Scientific Software 2000: Ottawa, Canada
- 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
Large-Scale Systems Integration
- Elias N. Houstis, Ann Christine Catlin, Ganesh Balakrishnan, Nitesh Dhanjani, GaHyun Park, John R. Rice, Spyros Lalis, Manolis Stamatogiannakis, Catherine E. Houstis:
Network-Based Scientific Computing. The Architecture of Scientific Software 2000: 3-28 - José C. Cunha:
Future Generations of Problem-Solving Environments. The Architecture of Scientific Software 2000: 29-38 - 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 - 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 - Thomas Epperly, Scott R. Kohn, Gary Kumfert:
Component Technology for High-Performance Scientific Simulation Software. The Architecture of Scientific Software 2000: 69-86 - Eric de Sturler, Jay P. Hoeflinger, Laxmikant V. Kalé, Milind A. Bhandarkar:
A New Approach to Software Integration Frameworks for Multi-physics Simulation Codes. The Architecture of Scientific Software 2000: 87-104 - Christophe René, Thierry Priol, Guillaume Alléon:
Code Coupling using Parallel CORBA Objects. The Architecture of Scientific Software 2000: 105-118 - Matthew S. Shields, Omer F. Rana, David W. Walker, David Golby:
A Collaborative Code Development Environment for Computational Electro-magnetics. The Architecture of Scientific Software 2000: 119-144
The Architecture of Components
- 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 - Michael Thuné, Krister Åhlander, Malin Ljungberg, Markus Nordén, Kurt Otto, Jarmo Rantakokko:
Object-oriented Modeling of Parallel PDE Solvers. The Architecture of Scientific Software 2000: 159-174 - Samuel Z. Guyer, Calvin Lin:
Broadway: A Software Architecture for Scientific Computing. The Architecture of Scientific Software 2000: 175-192 - John A. Gunnels, Robert A. van de Geijn:
Formal Methods for High-Performance Linear Algebra Libraries. The Architecture of Scientific Software 2000: 193-210 - Fred G. Gustavson:
New Generalized Matrix Data Structures Lead to a Variety of High-Performance Algorithms. The Architecture of Scientific Software 2000: 211-234 - Ping Tak Peter Tang:
A Comprehensive DFT API for Scientific Computing. The Architecture of Scientific Software 2000: 235-256 - Richard J. Hanson, Clay P. Breshears, Henry A. Gabb:
Using A Fortran Interface to POSIX Threads. The Architecture of Scientific Software 2000: 257-272 - Reagan W. Moore:
Data Management Systems for Scientific Applications. The Architecture of Scientific Software 2000: 273-284 - 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 - 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 - Vladimir Getov:
A Mixed-Language Programming Methodology for High Performance Java Computing. The Architecture of Scientific Software 2000: 333-350
Conference Information
- The Architecture of Scientific Software: the Conference. The Architecture of Scientific Software 2000: 351-356
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