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Line 1: '''Common modeling infrastructure''' refers to software libraries that can be shared across multiple institutions in order to increase software reuse and interoperability in complex modeling systems. Early initiatives were in the [[climate]] and [[weather]] ___domain, where [[software component]]s representing distinct physical domains (for example, [[ocean]] or [[atmosphere]]) tended to be developed by ___domain specialists, often at different organizations. In order to create complete applications, these needed to be combined ~~together~~, using for instance a [[general circulation model]], that transfers data between different components. An additional challenge is that these models generally require [[supercomputers]] to run, to account for the collected data and for data analyses. Thus, it was important to provide an efficient massively parallel computer system, and the processing hardware and software, to account for all the different workloads and communication channels.<ref name=Dickinson02>{{cite journal \| ~~coauthors~~author = Dickinson, R. E. \|author2=S. E. Zebiak, \|author3=J. L. Anderson, \|author4=M. L. Blackmon, \|author5=C. DeLuca, \|author6=T. F. Hogan, \|author7=M. Iredell, \|author8=M. Ji, \|author9=R. B. Rood, \|author10=M. J. Suarez~~, and~~ \|author11=K. E. Taylor▼ ~~\| author = Dickinson, R. E.~~ ▲\| coauthors = S. E. Zebiak, J. L. Anderson, M. L. Blackmon, C. DeLuca, T. F. Hogan, M. Iredell, M. Ji, R. B. Rood, M. J. Suarez, and K. E. Taylor \| year = 2002 \| title = How Can We Advance Our Climate and Weather Models as a Community? Line 7 ⟶ 6: \| volume = 83 \| pages = 431–434 \| doi = 10.1175/1520-0477(2002)083<0431:hcwaow>2.3.co;2 ~~\| doi =~~ \| url =http://climateknowledge.org/openclimate/docref/Dickinson_Community_Software_BAMS_2002.pdf }}</ref> ==~~Layers~~General == ~~Active common~~Common modeling infrastructure projects include the Network Common Data Form ([[NetCDF]]) library, the Spherical Coordinate Remapping and Interpolation Package (SCRIP), the ~~[[GFDL]]~~ Flexible Modeling System (FMS),<ref>{{cite web\|url=http://www.gfdl.noaa.gov/fms\|title=Flexible Modeling System (GFDL)}}</ref> the OASIS coupler developed at CERFACS, and the multi-agency Earth System Modeling Framework ([[ESMF]])~~. The [[NOAA]] [[Global Interoperability Program]] is an integrative effort whose aim is to encourage coordination across such projects~~.▼ The [[Earth System Modeling Framework]] (ESMF) is considered a technical layer, integrated into a common modeling infrastructure. Other aspects of interoperability and shared infrastructure include: common experimental protocols, common analytic methods, common documentation standards for data and data provenance, shared workﬂow, and shared model components.<ref>{{cite web\|url=http://cpo.noaa.gov/sites/cpo/MAPP/Webinars/2014/03-31-14/Balaji.pdf\|title=Scientiﬁc Basis for Common Infrastructure\|author=NOAA/CPO MAPP\|date=March 31, 2014\|page=15}}</ref>▼ ▲The [[Earth System Modeling Framework]] (ESMF) is considered a technical layer, integrated into a common modeling infrastructure. Other aspects of interoperability and shared infrastructure include: common experimental protocols, common analytic methods, common documentation standards for data and data [[provenance]], shared ~~workﬂow~~workflow, and shared model components.<ref>{{cite web\|url=http://cpo.noaa.gov/sites/cpo/MAPP/Webinars/2014/03-31-14/Balaji.pdf\|title=~~Scientiﬁc~~Scientific Basis for Common Infrastructure\|author=NOAA/CPO MAPP\|date=March 31, 2014\|page=15}}</ref> == History == In the late 1990s and early 2000s, a series of journal papers and government reports described common modeling infrastructure as necessary to the competitiveness and evolution of the U.S. Earth science modeling community. These reports resulted in a number of new community projects. The [http://www.earthsystemmodeling.org/ Earth System Modeling Framework] ([[ESMF]]) inand the U[http://science.Senergy. ~~and the PRogramme for Integrated~~gov/ber/research/cesd/earth-system-modeling-program/ Earth System Modeling] (~~PRISM~~ESM) ~~in Europe were~~are two of the largest modeling approaches. Similar projects were initiated in related domains, including the [http://csem.engin.umich.edu/tools/swmf/ Space Weather Modeling Framework] ~~and~~(SWMF/CESM), to study conditions including the ~~Center~~Sun, ~~for~~solar ~~Integrated~~wind, ~~Space~~magnetosphere, ~~Weather~~ionosphere, ~~Modeling~~and inthermosphere ~~the~~that potentially can influence performance and reliability of [[space-borne ~~weather]]~~and ground-based technological systems or can endanger human life or ~~community~~health. == See also ==▼ ▲Active common modeling infrastructure projects include the Network Common Data Form ([[NetCDF]]) library, the Spherical Coordinate Remapping and Interpolation Package (SCRIP), the [[GFDL]] Flexible Modeling System (FMS), the OASIS coupler developed at CERFACS, and the multi-agency Earth System Modeling Framework ([[ESMF]]). The [[NOAA]] [[Global Interoperability Program]] is an integrative effort whose aim is to encourage coordination across such projects. * [[Climate model]]▼ ▲==See also == * [[Earth System Modeling Framework]] ▲*[[Climate model]] ==References== {{~~Reflist~~reflist\|30em}} {{Atmospheric, Oceanographic and Climate Models}} {{Computer modeling}} [[Category:Computer libraries]] [[Category:Numerical climate and weather models]] ~~[[Category:Climate change modelling]]~~