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Volume 10, issue 12 | Copyright

Special issue: Dynamical Core Model Intercomparison Project 2016

Geosci. Model Dev., 10, 4477-4509, 2017
https://doi.org/10.5194/gmd-10-4477-2017
© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Review and perspective paper 06 Dec 2017

Review and perspective paper | 06 Dec 2017

DCMIP2016: a review of non-hydrostatic dynamical core design and intercomparison of participating models

Paul A. Ullrich et al.
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Arakawa, A. and Konor, C. S.: Unification of the anelastic and quasi-hydrostatic systems of equations, Mon. Weather Rev., 137, 710–726, 2009.
Arakawa, A. and Lamb, V. R.: Computational design of the basic dynamical processes of the UCLA general circulation model, Meth. Comput. Phys., 17, 173–265, 1977.
Arakawa, A. and Moorthi, S.: Baroclinic instability in vertically discrete systems, J. Atmos. Sci., 45, 1688–1708, 1988.
Ascher, U. M., Ruuth, S. J., and Spiteri, R. J.: Implicit-explicit Runge-Kutta methods for time-dependent partial differential equations, Appl. Numer. Math., 25, 151–167, 1997.
Baba, Y., Takahashi, K., Sugimura, T., and Goto, K.: Dynamical core of an atmospheric general circulation model on a yin–yang grid, Mon. Weather Rev., 138, 3988–4005, 2010.
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Short summary
Atmospheric dynamical cores are a fundamental component of global atmospheric modeling systems and are responsible for capturing the dynamical behavior of the Earth's atmosphere. To better understand modern dynamical cores, this paper aims to provide a comprehensive review of 11 dynamical cores, drawn from modeling centers and groups that participated in the 2016 Dynamical Core Model Intercomparison Project (DCMIP) workshop and summer school.
Atmospheric dynamical cores are a fundamental component of global atmospheric modeling systems...
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