Within the finite element community, discontinuous Galerkin (DG) and mixed finite element methods have become increasingly popular in simulating geophysical flows. However, robust and efficient solvers for the resulting saddle point and elliptic systems arising from these discretizations continue to be an ongoing challenge. One possible approach for addressing this issue is to employ a method known as hybridization, where the discrete equations are transformed such that classic static condensation and local post-processing methods can be employed. However, it is challenging to implement hybridization as performant parallel code within complex models whilst maintaining a separation of concerns between applications scientists and software exp...
At the heart of modern numerical weather forecasting and climate modelling lie simulations of two ge...
The use of composable abstractions allows the application of new and established algorithms to a wid...
Firedrake is a new tool for automating the numerical solution of partial differential equations. Fir...
This book introduces recently developed mixed finite element methods for large-scale geophysical flo...
There is a current explosion of interest in new numerical methods for atmospheric modeling. A drivin...
This model description paper introduces a new finite element model for the simulation of non-linear ...
As computational research has grown, simulation has become a standard tool in many fields of academi...
The efficient solution of discretizations of coupled systems of partial differential equations (PDEs...
Version used in the Springer brief: "Automating the finite element method for geophysical flows usin...
The implementation of efficient multigrid preconditioners for elliptic partial differential equation...
17 USC 105 interim-entered record; under review.The article of record as published may be found at h...
Many classical finite elements such as the Argyris and Bell elements have long been absent from high...
Numerical climate- and weather-prediction models require the fast solution of the equations of fluid...
Efficient numerical solvers for partial differential equations are critical to vast fields of engine...
© Author(s) 2019. We introduce Devito, a new domain-specific language for implementing high-performa...
At the heart of modern numerical weather forecasting and climate modelling lie simulations of two ge...
The use of composable abstractions allows the application of new and established algorithms to a wid...
Firedrake is a new tool for automating the numerical solution of partial differential equations. Fir...
This book introduces recently developed mixed finite element methods for large-scale geophysical flo...
There is a current explosion of interest in new numerical methods for atmospheric modeling. A drivin...
This model description paper introduces a new finite element model for the simulation of non-linear ...
As computational research has grown, simulation has become a standard tool in many fields of academi...
The efficient solution of discretizations of coupled systems of partial differential equations (PDEs...
Version used in the Springer brief: "Automating the finite element method for geophysical flows usin...
The implementation of efficient multigrid preconditioners for elliptic partial differential equation...
17 USC 105 interim-entered record; under review.The article of record as published may be found at h...
Many classical finite elements such as the Argyris and Bell elements have long been absent from high...
Numerical climate- and weather-prediction models require the fast solution of the equations of fluid...
Efficient numerical solvers for partial differential equations are critical to vast fields of engine...
© Author(s) 2019. We introduce Devito, a new domain-specific language for implementing high-performa...
At the heart of modern numerical weather forecasting and climate modelling lie simulations of two ge...
The use of composable abstractions allows the application of new and established algorithms to a wid...
Firedrake is a new tool for automating the numerical solution of partial differential equations. Fir...