On the Development & Performance of a First Order Stokes Finite Element Ice Sheet Dycore Built Using Trilinos Software Components
Abstract not provided.
Publications
Applications in Mesoscopic Modeling of Materials
Abstract not provided.
A Hybrid Operator Dependent MG / AMG Approach: Application to Ice Sheet Modeling
Abstract not provided.
An Ice Sheet Model Initialization Procedure for Smooth Coupling with Climate Forcing
Abstract not provided.
Update on the Albany/FELIX First Order Stokes Solver and the CISM-Albany and MPAS-Albany Dycores
Abstract not provided.
On the scalability of the Albany/FELIX first-order stokes approximation ice sheet solver for large-scale simulations of the Greenland and Antarctic ice sheets
Procedia Computer Science
We 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 the ILU preconditioner exhibits better scalability. A weak scalability study is performed on a realistic, moderate resolution Antarctic ice sheet problem, a substantial fraction of which contains floating ice shelves, making it fundamentally different from the Greenland ice sheet problem. Here, we show that as the problem size increases, the performance of the ILU preconditioner deteriorates whereas the AMG preconditioner maintains scalability. This is because the linear systems are extremely ill-conditioned in the presence of floating ice shelves, and the ill-conditioning has a greater negative effect on the ILU preconditioner than on the AMG preconditioner.
A Parallel Implicit Implementation of Smoothed Paricle Hydrodynamics for Electrokinetic Applications
Abstract not provided.
Adjoint-based Deterministic Inversion for Ice Sheets
Abstract not provided.
Implementation of a Second-Order Stabilized CVFEM using Intrepid
Abstract not provided.
A consistent second order projection scheme for simulating transient viscous flow with Smoothed Particle Hydrodynamics
CMAME
Abstract not provided.
Greenland Icesheet Initialization: Optimal Control and Bayesian Calibration Approaches
Abstract not provided.
PISCEES Development of the FELIX Dynamical Cores for Land Ice Modeling
Abstract not provided.
An Update on the Albany/FELIX First- Order Stokes Finite Element Solver & Its Coupling to Land Ice Dycores
Abstract not provided.
A New Control Volume Finite Element Method for the Drift-Diffusion Equations on Unstructured Grids
Abstract not provided.
Optimal Initial Conditions for Coupling Ice Sheet Models to Earth System Models
Journal of Geophysical Research
Abstract not provided.
FORMULATION AND ANALYSIS OF A PARAMETER-FREE STABILIZED FINITE ELEMENT METHOD
SIAM Journal on Numerical Analysis
Abstract not provided.
The Albany/FELIX First Order Stokes Dycore
Abstract not provided.
FELIX: The Albany Ice Sheet Modeling Code
Abstract not provided.
Modeling icesheets dynamics: forward and inverse problems
Abstract not provided.
Rapid Development of an Ice Sheet Climate Application using the Components-Based Approach
Abstract not provided.
FELIX: advances in modeling forward and inverse icesheet problems
Abstract not provided.
FELIX: advances in modeling forward and inverse ice-sheet problems
Abstract not provided.
Results 126–147 of 147