COPERNICUS Project: CP 94-0820

High Performance Computing in Geosciences
Safety of constructions with respect to
rock deformations and movements
HIPERGEOS

Prospects for future work opened due to the research done within this project

• The results of the present project demonstrate that we have now very efficient iterative methods (and softwares) to solve the 3D Navier equations of elasticity on very large structured grids. The same methods require however further developments to reach the same efficiency when applied to other elasticity problems like plate and shell problems on irregular grids. These problems represent a very significant part of the finite element software market in continuum mechanics and constitute a new challenging question.
• Development of new robust solution methods for adaptive local refinement and "h-p" refinement based on composite grids and use of a posteriori error estimators as well as for non-conforming FEM systems, both studied as alternatives to improve the parameter stability of the numerical solution.
• Construction of new algorithms for efficient parallel implementation on multiprocessor workstations with distributed, shared and dynamic shared memory architecture. Improvement of the performance of the FEM codes by development of new recursive and blocking algorithms taking into account the influence of the cache locality and data locality.
• Development of new multilevel Newton-type method exploiting adaptive mesh refinement as well as continuation with respect to some problem parameters.

We expect that some of the above mentioned problems will be successfully solved within the forthcoming COPERNICUS KIT project.

Last changed on Mar 26 2001, mn