The article of record as published may be located at http://dx.doi.org/10.1256/qj.03.218The Naval Research Laboratory's spectral element atmospheric model (NSEAM) for scalable computer architectures is presented. This new dynamical core is based on a high-order spectral element (SE) method in space and uses semi-implicit methods in time based on either the traditional second-order leapfrog (LF2) or second-order backward difference formulas (BDF2). The novelties of NSEAM are: it is geometrically flexible and thereby can accommodate any type of grid; LF2 or BDF2 are used to construct the semi-implicit method; and the horizontal operators are written, discretized, and solved in three-dimensional Cartesian space. The semi-implicit NSEAM is vali...
The paper documents the development of a global nonhydrostatic finite-volume module designed to enha...
Global simulations with 1.45 km grid spacing are presented that were performed using the Integrated ...
Numerical weather prediction (NWP) is in a period of transition. As resolutions increase, global mod...
The article of record as published may be found at https://doi.org/10.1177/1094342018763966Numerical...
Global atmospheric circulation models (GCM) typically have three primary algorithmic components: col...
A new dynamical core for numerical weather prediction (NWP) based on the spectral element Eulerian-L...
For two formulations of currently usual numerical weather prediction models the evolution of maximum...
The major focus of this two year duration CHAMMP science team project is the development and in-mode...
The practical question of whether the classical spectral transform method, widely used in atmospheri...
This paper investigates the suitability of the spectral transform method for parallel implementation...
AbstractWith the inclusion of a scalable spectral-element-based version of the High-Order Method Mod...
This paper describes a parallel implementation of a grand challenge problem: global atmospheric mode...
Global kilometre-scale resolving weather and climate models come with extreme compute requirements.T...
Although semi-implicit semi-Lagrangian spectral atmospheric models have been very successful for dec...
The elliptic problems in semi-implicit nonhydrostatic atmospheric models are difficult. Typically, t...
The paper documents the development of a global nonhydrostatic finite-volume module designed to enha...
Global simulations with 1.45 km grid spacing are presented that were performed using the Integrated ...
Numerical weather prediction (NWP) is in a period of transition. As resolutions increase, global mod...
The article of record as published may be found at https://doi.org/10.1177/1094342018763966Numerical...
Global atmospheric circulation models (GCM) typically have three primary algorithmic components: col...
A new dynamical core for numerical weather prediction (NWP) based on the spectral element Eulerian-L...
For two formulations of currently usual numerical weather prediction models the evolution of maximum...
The major focus of this two year duration CHAMMP science team project is the development and in-mode...
The practical question of whether the classical spectral transform method, widely used in atmospheri...
This paper investigates the suitability of the spectral transform method for parallel implementation...
AbstractWith the inclusion of a scalable spectral-element-based version of the High-Order Method Mod...
This paper describes a parallel implementation of a grand challenge problem: global atmospheric mode...
Global kilometre-scale resolving weather and climate models come with extreme compute requirements.T...
Although semi-implicit semi-Lagrangian spectral atmospheric models have been very successful for dec...
The elliptic problems in semi-implicit nonhydrostatic atmospheric models are difficult. Typically, t...
The paper documents the development of a global nonhydrostatic finite-volume module designed to enha...
Global simulations with 1.45 km grid spacing are presented that were performed using the Integrated ...
Numerical weather prediction (NWP) is in a period of transition. As resolutions increase, global mod...