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Genetic Deletion of Cyclophilin D Results in Enhanced Hypoxia Tolerance in Mice. [PDF]
Cell Mol NeurobiolLiu Y +7 more
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Proceedings of the 11th international conference on Supercomputing - ICS '97, 1997
HPC++ is a C++ library and language extension framework that is being developed by the HPC++ consortium as a standard model for portable parallel C++ programming. This paper describes an initial implementation of the HPC++ Parallel Standard Template Library (PSTL) framework.
Elizabeth Johnson, Dennis Gannon
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HPC++ is a C++ library and language extension framework that is being developed by the HPC++ consortium as a standard model for portable parallel C++ programming. This paper describes an initial implementation of the HPC++ Parallel Standard Template Library (PSTL) framework.
Elizabeth Johnson, Dennis Gannon
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Communications of the ACM, 2023
An examination of how the technology landscape has changed and possible future directions for HPC operations and innovation.
Daniel Reed +2 more
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An examination of how the technology landscape has changed and possible future directions for HPC operations and innovation.
Daniel Reed +2 more
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Proceedings of the Conference on Extreme Science and Engineering Discovery Environment: Gateway to Discovery, 2013
This paper describes the HPC University website and how it can be utilized to obtain information about computational science and high performance computing education and training resources, opportunities for student internships, shared educational materials, and news and information about HPC related events.
Scott Lathrop +3 more
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This paper describes the HPC University website and how it can be utilized to obtain information about computational science and high performance computing education and training resources, opportunities for student internships, shared educational materials, and news and information about HPC related events.
Scott Lathrop +3 more
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ACM SIGOPS Operating Systems Review, 2006
Traditional full-featured operating systems are known to have properties that limit the scalability of distributed memory parallel programs, the most common programming paradigm utilized in high end computing. Furthermore, as processor counts increase with the most capable systems, the necessary activity to manage the system becomes more of a burden ...
Sayantan Chakravorty +6 more
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Traditional full-featured operating systems are known to have properties that limit the scalability of distributed memory parallel programs, the most common programming paradigm utilized in high end computing. Furthermore, as processor counts increase with the most capable systems, the necessary activity to manage the system becomes more of a burden ...
Sayantan Chakravorty +6 more
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Proceedings of the 6th ACM Conference on Bioinformatics, Computational Biology and Health Informatics, 2015
The near exponential growth in sequence data available to bioinformaticists, and the emergence of new fields of biological research, continue to fuel an incessant need for increases in sequence alignment performance. Concurrently, the High Performance Computing (HPC) world has seen a steady increase in the use of the Intel Xeon Phi. This is depicted by
Shane E. Sawyer +3 more
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The near exponential growth in sequence data available to bioinformaticists, and the emergence of new fields of biological research, continue to fuel an incessant need for increases in sequence alignment performance. Concurrently, the High Performance Computing (HPC) world has seen a steady increase in the use of the Intel Xeon Phi. This is depicted by
Shane E. Sawyer +3 more
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Proceedings of the 12th Workshop on Workflows in Support of Large-Scale Science, 2017
Next-generation data-intensive scientific workflows need to support streaming and real-time applications with dynamic resource needs on high performance computing (HPC) platforms. The static resource allocation model on current HPC systems that was designed for monolithic MPI applications is insufficient to support the elastic resource needs of current
William Fox +4 more
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Next-generation data-intensive scientific workflows need to support streaming and real-time applications with dynamic resource needs on high performance computing (HPC) platforms. The static resource allocation model on current HPC systems that was designed for monolithic MPI applications is insufficient to support the elastic resource needs of current
William Fox +4 more
openaire +1 more source