AbstractWe examine the scalability of the recently developed Albany/FELIX finite-element based code for the first-order Stokes momentum balance equations for ice flow. We focus our analysis on the performance of two possible preconditioners for the iterative solution of the sparse linear systems that arise from the discretization of the governing equations: (1) a preconditioner based on the incomplete LU (ILU) factorization, and (2) a recently-developed algebraic multigrid (AMG) preconditioner, constructed using the idea of semi-coarsening. A strong scalability study on a realistic, high resolution Greenland ice sheet problem reveals that, for a given number of processor cores, the AMG preconditioner results in faster linear solve times but...
At least in conventional hydrostatic ice-sheet models, the numerical error associated with grounding...
Ice flow forced by gravity is governed by the full Stokes (FS) equations, which are computationally ...
The numerical modeling of glacier and ice sheet evolution is a subject of growing interest, in part ...
AbstractWe examine the scalability of the recently developed Albany/FELIX finite-element based code ...
This paper describes a new parallel, scalable and robust finite element based solver for the first-o...
(FO) Stokes model for ice sheets and the Albany/FELIX finite element solver. • Definitions: Strong v...
Ice sheets, such as the Greenland Ice Sheet or Antarctic Ice Sheet, have a fundamental impact on lan...
Abstract. Motivated by the need for efficient and accurate simulation of the dynamics of the polar i...
Ice flow, forced by gravity is governed by the Full Stokes (FS) equations, which are computationally...
Numerical simulations of Greenland and Antarctic ice sheets involve the solution of large-scale high...
The Fourth IPCC Assessment Report concluded that ice sheet flow models, in their current state, were...
Identifying fast and robust numerical solvers is a critical issue that needs to be addressed in orde...
International audienceThe contribution of the Greenland ice sheet to sea level rise has continuously...
Numerical models for predicting future ice mass loss of the Antarctic and Greenland ice sheets requi...
A computational analysis of the accuracy of different approximations to the Stokes equations for mom...
At least in conventional hydrostatic ice-sheet models, the numerical error associated with grounding...
Ice flow forced by gravity is governed by the full Stokes (FS) equations, which are computationally ...
The numerical modeling of glacier and ice sheet evolution is a subject of growing interest, in part ...
AbstractWe examine the scalability of the recently developed Albany/FELIX finite-element based code ...
This paper describes a new parallel, scalable and robust finite element based solver for the first-o...
(FO) Stokes model for ice sheets and the Albany/FELIX finite element solver. • Definitions: Strong v...
Ice sheets, such as the Greenland Ice Sheet or Antarctic Ice Sheet, have a fundamental impact on lan...
Abstract. Motivated by the need for efficient and accurate simulation of the dynamics of the polar i...
Ice flow, forced by gravity is governed by the Full Stokes (FS) equations, which are computationally...
Numerical simulations of Greenland and Antarctic ice sheets involve the solution of large-scale high...
The Fourth IPCC Assessment Report concluded that ice sheet flow models, in their current state, were...
Identifying fast and robust numerical solvers is a critical issue that needs to be addressed in orde...
International audienceThe contribution of the Greenland ice sheet to sea level rise has continuously...
Numerical models for predicting future ice mass loss of the Antarctic and Greenland ice sheets requi...
A computational analysis of the accuracy of different approximations to the Stokes equations for mom...
At least in conventional hydrostatic ice-sheet models, the numerical error associated with grounding...
Ice flow forced by gravity is governed by the full Stokes (FS) equations, which are computationally ...
The numerical modeling of glacier and ice sheet evolution is a subject of growing interest, in part ...