A Massively Parallel Dynamical Core for Continental- to Global-Scale River Transport 1,2,3 J. W. Larson, 4 A. P. Craig, 5 J. B. Drake, 5 D. J. Erickson, III, 5 M. L. Branstetter, 5 M. W. Ham 1 - Continental climate - Document - PDFSEARCH.IO - Document Search Engine

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	A Massively Parallel Dynamical Core for Continental- to Global-Scale River Transport 1,2,3 J. W. Larson, 4 A. P. Craig, 5 J. B. Drake, 5 D. J. Erickson, III, 5 M. L. Branstetter, 5 M. W. Ham 1 Add to Reading List Document Date: 2013-01-16 19:08:24 Open Document File Size: 434,59 KB Share Result on Facebook City New York / Canberra / Argonne / Berlin / Washington / / Company IBM / Argonne National Laboratory / Cambridge University Press / H. N. V. / UChicago Argonne LLC / W. H. S. A. / Oak Ridge National Laboratory / IEEE Computer Society Press / John Wiley and Sons / / Country United States / US / / / Event Environmental Issue / / Facility ANU Supercomputer Facility / National Center / Computation Institute / Computational Highway / catchment IDs / Australian National University / University of Chicago Chicago / / IndustryTerm software foundation / physical processor / trace chemicals / land river networks / parallel computing / chemical tracers / software infrastructure / river networks / above algorithm / parallel computing toolkit / chemical species concentrations / performance-portable algorithm / resolution river networks / river network / multivariate data processing / land-surface energy / variable velocity flow routing algorithm / physical processors / / NaturalFeature Continentalscale river / River Modelling / River Transport Model Scalability RTMs / / Organization Cambridge University / office of Science Climate Change Prediction Program / US Department of Energy / University of Chicago Chicago / National Center for Atmospheric Research / US National Science Foundation / Computation Institute / Computer Science and Mathematics Division / USA Climate and Global Dynamics Division / Australian Department of Education / National Center for Atmospheric Research Boulder / Australian National University / / Person A. Kohl / Morgan Kaufmann / Coupling Toolkit / J. M. Arblaster / V / Proc / R. James / V / / Position flexible programming model for constructing custom parallel coupling mechanisms / D. J. / CLM physics driver / Model / representative / COO / / ProgrammingLanguage Fortran / Fortran 77 / / ProvinceOrState Illinois / New York / / PublishedMedium Climate Dynamics / Journal of Climate / Atmospheric Research / Lecture Notes in Computer Science / Journal of Geophysical Research / / Technology variable velocity flow routing algorithm / above algorithm / 8 processors / API / 128 processors / 5 processors / MCT technology / eight processors / 16 processors / parallel RTM algorithm / MCT-based coupling algorithm / performance-portable algorithm / simulation / 8 physical processors / / URL http / SocialTag Application programming interfaces Parallel computing Message Passing Interface Community Climate System Model Global climate model Climate model MEMO Model Distributed computing Grid computing Atmospheric sciences