The Albany/FELIX Land-Ice Dynamical Core
Abstract not provided.
Publications
Aeras: A Performance Portable High-Resolution Global Atmosphere Model
Abstract not provided.
Toward Robust Scalable Algebraic Multigrid Solvers
Abstract not provided.
The Aeras Next Generation Global Atmosphere Model
The Next Generation Global Atmosphere Model LDRD project developed a suite of atmosphere models: a shallow water model, an x - z hydrostatic model, and a 3D hydrostatic model, by using Albany, a finite element code. Albany provides access to a large suite of leading-edge Sandia high- performance computing technologies enabled by Trilinos, Dakota, and Sierra. The next-generation capabilities most relevant to a global atmosphere model are performance portability and embedded uncertainty quantification (UQ). Performance portability is the capability for a single code base to run efficiently on diverse set of advanced computing architectures, such as multi-core threading or GPUs. Embedded UQ refers to simulation algorithms that have been modified to aid in the quantifying of uncertainties. In our case, this means running multiple samples for an ensemble concurrently, and reaping certain performance benefits. We demonstrate the effectiveness of these approaches here as a prelude to introducing them into ACME.
The Albany/FELIX First-Order Stokes Finite Element Ice Sheet Dynamical Core Built Using Trilinos Software Components: Performance Next-Generation Capabilities and Validation
Abstract not provided.
Concurrent Multiscale Modeling of Microstructural Effects on Localization Behavior in Finite Deformation Solid Mechanics
Abstract not provided.
A Scalable Solver Algorithm to Enable Sea-Level Rise Prediction using Agile Components
Abstract not provided.
Concurrent Multiscale Modeling of Microstructural Effects on Localization Behavior in Finite Deformation Solid Mechanics
Abstract not provided.
Building Next-Generation Atmosphere and Land-Ice Models Using the Kokkos Trilinos Library
Abstract not provided.
Towards Uncertainty Quantification in 21st Century Sea-Level Rise Predictions: Efficient Methods for Bayesian Calibration and Forward Propagation of Uncertainty for Land-Ice Models
Abstract not provided.
Towards Uncertainty Quantification in 21st Century SeaLevel Rise Predictions: PDE Constrained Optimization as a First Step in Bayesian Calibration and Forward Propagation
Abstract not provided.
Computational Challenges in Ice Sheet Modeling
Abstract not provided.
Uncertainty Quantification for the Global Atmosphere Using Concurrent Samples
Abstract not provided.
Developing strong concurrent multiphysics multiscale coupling to understand the impact of microstructural mechanisms on the structural scale
Abstract not provided.
Towards quantifying uncertainty in Greenland's contribution to 21st century sea-level rise
Abstract not provided.
Component-based application code development, part 2:
Abstract not provided.
Component-Based Application Code Development Part 1: The AgileComponents Strategy and Albany Code
Abstract not provided.
Component-Based Application Code Development Part 2: Demonstration on a Land-Ice Model and Proposed Extension to Other Climate Components
Abstract not provided.
Albany: Integrating Algorithmic Components to Build Advanced Applications
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Rapid development of an ice sheet climate application using the components-based approach
Abstract not provided.
Albany/FELIX: A Robust & Scalable Trilinos-Based Finite-Element Ice Flow Dycore Built for Advanced Architectures & Analysis
Abstract not provided.
Progress on Manycore Multiphysics Simulation in Albany using the Kokkos Portable Hardware Abstraction Library
Abstract not provided.
Progress on the PISCEES FELIX Ice Sheet Dynamical Cores
Abstract not provided.
Uncertainty Quantification For A Next-Generation Global Atmosphere Model
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
Abstract not provided.
Results 26–50 of 77