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QOSA
2009
Springer
2009
Springer
Adaptive Application Composition in Quantum Chemistry
Abstract. Component interfaces, as advanced by the Common Component Architecture (CCA), enable easy access to complex software packages for high-performance scientific computing. A recent focus has been incorporating support for computational quality of service (CQoS), or the automatic composition, substitution, and dynamic reconfiguration of component applications. Several leading quantum chemistry packages have achieved interoperability by adopting CCA components. Running these computations on diverse computing platforms requires selection among many algorithmic and hardware configuration parameters; typical educated guesses or trial and error can result in unexpectedly low performance. Motivated by the need for faster runtimes and increased productivity for chemists, we present a flexible CQoS approach for quantum chemistry that uses a generic CQoS database component to create a training database with timing results and metadata for a range of calculations. The database then int...
Real-time TrafficChemistry Cqos Component | Common Component Architecture | QOSA 2009 | Quantum Chemistry | Software Engineering |
| Added | 27 May 2010 |
| Updated | 27 May 2010 |
| Type | Conference |
| Year | 2009 |
| Where | QOSA |
| Authors | Li Li, Joseph P. Kenny, Meng-Shiou Wu, Kevin A. Huck, Alexander Gaenko, Mark S. Gordon, Curtis L. Janssen, Lois C. McInnes, Hirotoshi Mori, Heather Netzloff, Boyana Norris, Theresa L. Windus |
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