The impact of SciDAC on US climate change research and the IPCCAR4
SciDAC has invested heavily in climate change research. We offer a candid opinion as to the impact of the DOE laboratories' SciDAC projects on the upcoming Fourth Assessment Report of the Intergovernmental Panel on Climate Change. As a result of the direct importance of climate change to societ...
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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Lawrence Berkeley National Laboratory
2005
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| Online Access: | http://digital.library.unt.edu/ark:/67531/metadc792775/ |
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University of North Texas: UNT Digital Library |
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Distribution 99 General And Miscellaneous//Mathematics Computing And Information Science Biogeochemistry Computers Seas Design Communications Atmospheric Chemistry 54 Environmental Sciences Water Simulation Array Processors Physics Climate Models Climates |
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Distribution 99 General And Miscellaneous//Mathematics Computing And Information Science Biogeochemistry Computers Seas Design Communications Atmospheric Chemistry 54 Environmental Sciences Water Simulation Array Processors Physics Climate Models Climates Wehner, Michael The impact of SciDAC on US climate change research and the IPCCAR4 |
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Distribution 99 General And Miscellaneous//Mathematics Computing And Information Science Biogeochemistry Computers Seas Design Communications Atmospheric Chemistry 54 Environmental Sciences Water Simulation Array Processors Physics Climate Models Climates |
| description |
SciDAC has invested heavily in climate change research. We offer a candid opinion as to the impact of the DOE laboratories' SciDAC projects on the upcoming Fourth Assessment Report of the Intergovernmental Panel on Climate Change. As a result of the direct importance of climate change to society, climate change research is highly coordinated at the international level. The Intergovernmental Panel on Climate Change (IPCC) is charged with providing regular reports on the state of climate change research to government policymakers. These reports are the product of thousands of scientists efforts. A series of reviews involving both scientists and policymakers make them among the most reviewed documents produced in any scientific field. The high profile of these reports acts a driver to many researchers in the climate sciences. The Fourth Assessment Report (AR4) is scheduled to be released in 2007. SciDAC sponsored research has enabled the United States climate modeling community to make significant contributions to this report. Two large multi-Laboratory SciDAC projects are directly relevant to the activities of the IPCC. The first, entitled ''Collaborative Design and Development of the Community Climate System Model for Terascale Computers'', has made important software contributions to the recently released third version of the Community Climate System Model (CCSM3.0) developed at the National Center for Atmospheric Research. This is a multi-institutional project involving Los Alamos National Laboratory, Oak Ridge National Laboratory, Lawrence Berkeley National Laboratory, Pacific Northwest National Laboratory, Argonne National Laboratory, Lawrence Livermore National Laboratory and the National Center for Atmospheric Research. The original principal investigators were Robert Malone and John B. Drake. The current principal investigators are Phil Jones and John B. Drake. The second project, entitled ''Earth System Grid II: Turning Climate Datasets into Community Resources'' aims to facilitate the distribution of the copious amounts of data produced by coupled climate model integrations to the general scientific community. This is also a multi-institutional project involving Argonne National Laboratory, Oak Ridge National Laboratory, Lawrence Berkeley National Laboratory, Lawrence Livermore National Laboratory and the National Center for Atmospheric Research. The principal investigators are Ian Foster, Don Middleton and Dean Williams. Perhaps most significant among the activities of the ''Collaborative Design'', project was the development of an efficient multi-processor coupling package. CCSM3.0 is an extraordinarily complicated physics code. The fully coupled model consists of separate submodels of the atmosphere, ocean, sea ice and land. In addition, comprehensive biogeochemistry and atmospheric chemistry submodels are under intensive current development. Each of these submodels is a large and sophisticated program in its own right. Furthermore, in the coupled model, each of the submodels, including the coupler, is a separate multiprocessor executable program. The coupler package must efficiently coordinate the communication as well as interpolate or aggregate information between these programs. This regridding function is necessary because each major subsystem (air, water or surface) is allowed to have its own independent grid. |
| author2 |
Director. Office of Science. Office of Biological andEnvironmental Research |
| format |
Article in Journal/Newspaper |
| author |
Wehner, Michael |
| author_facet |
Wehner, Michael |
| author_sort |
Wehner, Michael |
| title |
The impact of SciDAC on US climate change research and the IPCCAR4 |
| title_short |
The impact of SciDAC on US climate change research and the IPCCAR4 |
| title_full |
The impact of SciDAC on US climate change research and the IPCCAR4 |
| title_fullStr |
The impact of SciDAC on US climate change research and the IPCCAR4 |
| title_full_unstemmed |
The impact of SciDAC on US climate change research and the IPCCAR4 |
| title_sort |
impact of scidac on us climate change research and the ipccar4 |
| publisher |
Lawrence Berkeley National Laboratory |
| publishDate |
2005 |
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http://digital.library.unt.edu/ark:/67531/metadc792775/ |
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ENVELOPE(-85.600,-85.600,-77.867,-77.867) |
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Malone Pacific |
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Malone Pacific |
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Sea ice |
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Sea ice |
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SciDAC (Scientific Discovery through AdvancedComputing Program), San Francisco, CA, USA,06/26-30/2005 |
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rep-no: LBNL--58622 grantno: DE-AC02-05CH11231 osti: 861975 http://digital.library.unt.edu/ark:/67531/metadc792775/ ark: ark:/67531/metadc792775 |
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1766195856656039936 |
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ftunivnotexas:info:ark/67531/metadc792775 2023-05-15T18:19:02+02:00 The impact of SciDAC on US climate change research and the IPCCAR4 Wehner, Michael Director. Office of Science. Office of Biological andEnvironmental Research 2005-07-08 Text http://digital.library.unt.edu/ark:/67531/metadc792775/ English eng Lawrence Berkeley National Laboratory rep-no: LBNL--58622 grantno: DE-AC02-05CH11231 osti: 861975 http://digital.library.unt.edu/ark:/67531/metadc792775/ ark: ark:/67531/metadc792775 SciDAC (Scientific Discovery through AdvancedComputing Program), San Francisco, CA, USA,06/26-30/2005 Distribution 99 General And Miscellaneous//Mathematics Computing And Information Science Biogeochemistry Computers Seas Design Communications Atmospheric Chemistry 54 Environmental Sciences Water Simulation Array Processors Physics Climate Models Climates Article 2005 ftunivnotexas 2016-04-02T22:12:40Z SciDAC has invested heavily in climate change research. We offer a candid opinion as to the impact of the DOE laboratories' SciDAC projects on the upcoming Fourth Assessment Report of the Intergovernmental Panel on Climate Change. As a result of the direct importance of climate change to society, climate change research is highly coordinated at the international level. The Intergovernmental Panel on Climate Change (IPCC) is charged with providing regular reports on the state of climate change research to government policymakers. These reports are the product of thousands of scientists efforts. A series of reviews involving both scientists and policymakers make them among the most reviewed documents produced in any scientific field. The high profile of these reports acts a driver to many researchers in the climate sciences. The Fourth Assessment Report (AR4) is scheduled to be released in 2007. SciDAC sponsored research has enabled the United States climate modeling community to make significant contributions to this report. Two large multi-Laboratory SciDAC projects are directly relevant to the activities of the IPCC. The first, entitled ''Collaborative Design and Development of the Community Climate System Model for Terascale Computers'', has made important software contributions to the recently released third version of the Community Climate System Model (CCSM3.0) developed at the National Center for Atmospheric Research. This is a multi-institutional project involving Los Alamos National Laboratory, Oak Ridge National Laboratory, Lawrence Berkeley National Laboratory, Pacific Northwest National Laboratory, Argonne National Laboratory, Lawrence Livermore National Laboratory and the National Center for Atmospheric Research. The original principal investigators were Robert Malone and John B. Drake. The current principal investigators are Phil Jones and John B. Drake. The second project, entitled ''Earth System Grid II: Turning Climate Datasets into Community Resources'' aims to facilitate the distribution of the copious amounts of data produced by coupled climate model integrations to the general scientific community. This is also a multi-institutional project involving Argonne National Laboratory, Oak Ridge National Laboratory, Lawrence Berkeley National Laboratory, Lawrence Livermore National Laboratory and the National Center for Atmospheric Research. The principal investigators are Ian Foster, Don Middleton and Dean Williams. Perhaps most significant among the activities of the ''Collaborative Design'', project was the development of an efficient multi-processor coupling package. CCSM3.0 is an extraordinarily complicated physics code. The fully coupled model consists of separate submodels of the atmosphere, ocean, sea ice and land. In addition, comprehensive biogeochemistry and atmospheric chemistry submodels are under intensive current development. Each of these submodels is a large and sophisticated program in its own right. Furthermore, in the coupled model, each of the submodels, including the coupler, is a separate multiprocessor executable program. The coupler package must efficiently coordinate the communication as well as interpolate or aggregate information between these programs. This regridding function is necessary because each major subsystem (air, water or surface) is allowed to have its own independent grid. Article in Journal/Newspaper Sea ice University of North Texas: UNT Digital Library Malone ENVELOPE(-85.600,-85.600,-77.867,-77.867) Pacific |