Solution Techniques for Large-scale CFD Problems
Computational Methods in Mechanics and Applied Sciences
Current CFD problems of interest are typically of a large-scalenature, characterized by a size and complexity demanding thecombined efforts of interdisciplinary teams from engineering,mathematics, computer science and physics. This book thus groups aprestigious cross-section of internationally known scientistsinvited to expound on the following themes:
* Algorithms for vector, parallel and virtual-parallelarchitectures
* Algorithms for massively parallel architectures
* Convergence enhancement techniques, namely preconditionedinterative methods for implicit or fully-coupled approaches
* Convergence enhancement techniques, such as defect correction,multigrid, formulation preconditioning and zonal methods
* Application of these techniques to large-scale CFD analysis anddesign.
This book should prove equally valuable for CFD developers,practitioners and graduate students.
CFD ALGORITHMS FOR PARALLEL AND VIRTUAL-PARALLEL
ARCHITECTURES.
Solving Large Incompressible Time-Dependent Flow Problems on
Scalable Parallel Systems (H. Daniels & A. Peters).
CFD ALGORITHMS FOR VECTOR-PARALLEL AND MPP ARCHITECTURES.
Compressible Navier-Stokes Solvers on MPPs (L. Fezoui, et
al.).
CONVERGENCE ENHANCEMENT TECHNIQUES 1: PRECONDITIONED ITERATIVE
SOLVERS FOR IMPLICIT AND FULLY-COUPLED METHODS.
The Algebraic Multilevel Iteration Method: A Scalable and
Optimal Algorithm (O. Axelsson).
Quasi-Minimal Residual Iterative Solvers for CFD (N. Nachtigal
& B. Semeraro).
CONVERGENCE ENHANCEMENT TECHNQIUES II: DEFECT CORRECTION,
MULTIGRID, FORMULATION PRECONDITIONING AND ZONAL METHODS.
Multigrid Methods for Turbomachinery Navier-Stokes Calculations
(A. Arnone).
APPLICATION TO LARGE-SCALE SIMULATION AND DESIGN IN
AEROSPACE.
Unstructured Mesh Methods for Aerospace Applications (K. Morgan,
et al.).
