Adaptive multigrid for finite element computations in plasticity
Autor: | Torbjörn Ekevid, Per Kettil, Nils-Erik Wiberg |
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Rok vydání: | 2004 |
Předmět: |
Speedup
Preconditioner Computer science Mechanical Engineering Solver Grid Residual Computer Science::Numerical Analysis Finite element method Computer Science Applications Computational science Multigrid method Modeling and Simulation Convergence (routing) General Materials Science Civil and Structural Engineering |
Zdroj: | Computers & Structures. 82:2413-2424 |
ISSN: | 0045-7949 |
DOI: | 10.1016/j.compstruc.2004.04.013 |
Popis: | The solution of the system of equilibrium equations is the most time-consuming part in large-scale finite element computations of plasticity problems. The development of efficient solution methods are therefore of utmost importance to the field of computational plasticity. Traditionally, direct solvers have most frequently been used. However, recent developments of iterative solvers and preconditioners may impose a change. In particular, preconditioning by the multigrid technique is especially favorable in FE applications. The multigrid preconditioner uses a number of nested grid levels to improve the convergence of the iterative solver. Prolongation of fine-grid residual forces is done to coarser grids and computed corrections are interpolated to the fine grid such that the fine-grid solution successively is improved. By this technique, large 3D problems, invincible for solvers based on direct methods, can be solved in acceptable time at low memory requirements. By means of a posteriori error estimates the computational grid could successively be refined (adapted) until the solution fulfils a predefined accuracy level. In contrast to procedures where the preceding grids are erased, the previously generated grids are used in the multigrid algorithm to speed up the solution process. The paper presents results using the adaptive multigrid procedure to plasticity problems. In particular, different error indicators are tested. |
Databáze: | OpenAIRE |
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