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Climate model / Geophysical Fluid Dynamics Laboratory / Atmospheric model / Advection / Atmospheric Model Intercomparison Project / Atmospheric convection / Atmospheric physics / Global climate model / Atmospheric sciences / Meteorology / Oceanography


Document Date: 2003-03-04 14:23:26

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City

Kurihara / Tripoli / /

Company

Geophysical Fluid Dynamics Laboratory / Simmons / /

Country

United States / /

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Facility

Rutgers University / Geophysical Fluid Dynamics Laboratory / /

IndustryTerm

parallel computing environment / energy correction / energy conservation / parallel computing / shortwave radiation algorithm / climate prediction applications / computing / in-house software framework / energy / /

NaturalFeature

Arctic sea / /

Organization

FMS / Department of Ecology and Evolutionary Biology Princeton University Princeton / Rutgers University / Princeton University / National Oceanic and Atmospheric Administration / Department of Environmental Sciences / /

Person

Zhi Liang / Jeffrey L. Anderson / Andrew T. Wittenberg / Stuart M. Freidenreich / Brian J. Soden / Krista A. Dunne / William F. Cooke / Jeffrey J. Ploshay / Richard S. Hemler / Thomas R. Knutson / Lori A. Thompson / Amy R. Langenhorst / Elena Shevliakova / Thomas L. Delworth / Leo J. Donner / William F. Stern / Richard G. Gudgel / M. Daniel Schwarzkopf / Bruce L. Wyman / Sergey L. Malyshev / Larry W. Horowitz / R. John Wilson / Anthony J. Broccoli / Paul J. Kushner / Isaac M. Held / Stephen A. Klein / Keith W. Dixon / Mary J. Nath / /

Position

model development effort / Walker / Global Atmospheric Model Development Team / /

ProgrammingLanguage

Fortran 90 / /

ProvinceOrState

New Jersey / New Brunswick / Virginia / /

PublishedMedium

Journal of Climate / /

Technology

alpha / radiation / RADIATION AND PRESCRIBED OZONE AND AEROSOL CLIMATOLOGIES The shortwave radiation algorithm / simulation / /

URL

http /

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