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| Creator | Title | Description | Subject | Date | ||
|---|---|---|---|---|---|---|
| 1 |
 | Parker, Steven G.; Hansen, Charles D.; Johnson, Christopher R. | Computational steering and the SCIRun integrated problem solving environment | SCIRun is a problem solving environment that allows the interactive construction, debugging, and steering of large-scale scientific computations. We review related systems and introduce a taxonomy that explores different computational steering solutions. Considering these approaches, we discuss why ... | Computational steering; Problem solving environment; SCIRun; Volume rendering | 1997 |
| 2 |
 | Johnson, Christopher R. | Grid-enabling problem solving environments: a case study of SCIRun and NetSolve | Combining the functionality of NetSolve, a grid-based middleware solution, with SCIRun, a graphically-based problem solving environment (PSE), yields a platform for creating and executing grid-enabled applications. Using this integrated system, hardware and/or software resources not previously ac... | Grid computing; SCIRun; NetSolve; Problem solving environment; Numerical libraries; Parallel programming (Computer science) | 2001 |
| 3 |
 | Hansen, Charles D.; Parker, Steven G.; Johnson, Christopher R. | Integrated problem solving environment: the SCIRun computational steering system | SCIRun is a scientific programming environment that allows the interactive construction, debugging, and steering of large-scale scientific computations. We review related systems and introduce a taxonomy that explores different computational steering solutions, Considering these approaches, we discu... | SCIRun; Computational steering; Problem solving environment; Distributed computing | 1998 |
| 4 |
 | Parker, Steven G. | Integrating component-based scientific computing software | In recent years, component technology has been a successful methodology for large-scale commercial software development. Component technology combines a set of frequently used functions in a component and makes the implementation transparent to users. Software application developers typically conne... | SCIRun; BioPSE; Component technology; Computational steering; Problem solving environment; Distributed computing | 2006 |
| 5 |
 | Parker, Steven G.; Smith, Philip J.; Johnson, Christopher R. | Parallelization and integration of fire simulations in the Uintah PSE | A physics-based stand-alone serial code for fire simulations is integrated in a unified computational framework to couple with other disciplines and to achieve massively parallel computation. Uintah, the computational framework used, is a component-based visual problem-solving environment developed... | Uintah; Problem solving environment | 2001 |
| 6 |
 | De St Germain, John Davison; Morris, Alan H.; Parker, Steven G. | Performance analysis integration in the Uintah software development cycle | The increasing complexity of high-performance computing environments and programming methodologies presents challenges for empirical performance evaluation. Evolving parallel and distributed systems require performance technology that can be flexibly configured to observe different events and associ... | Uintah; Problem solving environment; Performance analysis; Parallelism; C-SAFE | 2003 |
| 7 |
 | De St Germain, John Davison; Parker, Steven G.; Johnson, Christopher R. | Uintah parallelism infrastructure: a performance evaluation on the SGI origin 2000 | Uintah is a component-based visual problem solving environment (PSE) designed to specifically address the unique problems inherent in running massively parallel scientific computations on terascale computing platforms. In particular, development of the Uintah system is part of the C-SAFE [2] effort ... | Uintah; Problem solving environment; Performance analysis; Parallelism; Origin 2000; C-SAFE | 2001 |
| 8 |
 | De St Germain, John Davison; Parker, Steven G.; Johnson, Christopher R. | Uintah: a massively parallel problem solving environment | This paper describes Uintah, a component-based visual problem solving environment (PSE) that is designed to specifically address the unique problems of massively parallel computation on terascale computing platforms. Uintah supports the entire life cycle of scientific applications by allowing scient... | Uintah; Problem solving environment; Computational steering; Parallel computers | 2000 |
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