A review of element-based Galerkin methods for numerical weather prediction: Finite elements, spectral elements, and discontinuous Galerkin
Numerical weather prediction (NWP) is in a period of transition. As resolutions increase,
global models are moving towards fully nonhydrostatic dynamical cores, with the local and …
global models are moving towards fully nonhydrostatic dynamical cores, with the local and …
[HTML][HTML] Physics–dynamics coupling in weather, climate, and Earth system models: Challenges and recent progress
Physics–Dynamics Coupling in Weather, Climate, and Earth System Models: Challenges and
Recent Progress in: Monthly Weather Review Volume 146 Issue 11 (2018) Jump to Content …
Recent Progress in: Monthly Weather Review Volume 146 Issue 11 (2018) Jump to Content …
[图书][B] Space-filling curves: an introduction with applications in scientific computing
M Bader - 2012 - books.google.com
The present book provides an introduction to using space-filling curves (SFC) as tools in
scientific computing. Special focus is laid on the representation of SFC and on resulting …
scientific computing. Special focus is laid on the representation of SFC and on resulting …
NCAR release of CAM‐SE in CESM2. 0: A reformulation of the spectral element dynamical core in dry‐mass vertical coordinates with comprehensive treatment of …
It is the purpose of this paper to provide a comprehensive documentation of the new NCAR
(National Center for Atmospheric Research) version of the spectral element (SE) dynamical …
(National Center for Atmospheric Research) version of the spectral element (SE) dynamical …
Continuous and discontinuous Galerkin methods for a scalable three-dimensional nonhydrostatic atmospheric model: Limited-area mode
JF Kelly, FX Giraldo - Journal of Computational Physics, 2012 - Elsevier
This paper describes a unified, element based Galerkin (EBG) framework for a three-
dimensional, nonhydrostatic model for the atmosphere. In general, EBG methods possess …
dimensional, nonhydrostatic model for the atmosphere. In general, EBG methods possess …
DCMIP2016: a review of non-hydrostatic dynamical core design and intercomparison of participating models
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 …
systems and are responsible for capturing the dynamical behavior of the Earth's atmosphere …
Analysis of adaptive mesh refinement for IMEX discontinuous Galerkin solutions of the compressible Euler equations with application to atmospheric simulations
MA Kopera, FX Giraldo - Journal of Computational Physics, 2014 - Elsevier
The resolutions of interests in atmospheric simulations require prohibitively large
computational resources. Adaptive mesh refinement (AMR) tries to mitigate this problem by …
computational resources. Adaptive mesh refinement (AMR) tries to mitigate this problem by …
Unprecedented cloud resolution in a gpu-enabled full-physics atmospheric climate simulation on olcf's summit supercomputer
Clouds represent a key uncertainty in future climate projection. While explicit cloud
resolution remains beyond our computational grasp for global climate, we can incorporate …
resolution remains beyond our computational grasp for global climate, we can incorporate …
A global non-hydrostatic dynamical core using the spectral element method on a cubed-sphere grid
A new global model with a non-hydrostatic (NH) dynamical core is developed. It employs the
spectral element method (SEM) in the horizontal discretization and the finite difference …
spectral element method (SEM) in the horizontal discretization and the finite difference …
Strong scaling for numerical weather prediction at petascale with the atmospheric model NUMA
Numerical weather prediction (NWP) has proven to be computationally challenging due to
its inherent multiscale nature. Currently, the highest resolution global NWP models use a …
its inherent multiscale nature. Currently, the highest resolution global NWP models use a …