To improve conditioning of matrices arising from the FE solution to Biot's consolidation equations, we investigate a number of scaling algorithms, inclucting simple diagonal scaling, modified scaling by the selection of appropriate non-diagonal factors, and a scaling minimizing the sum of the squares of the logarithms of the matrix entries. Results from 2D and 3D large size examples show that preliminary scaling may play a basic role in accelerating the convergence of projection solvers such as Bi-CGSTAB and TFQMR
Paper reporting on adding biot's 3D coupled consolidation in fully saturated soils to the scaled bou...
The Finite Element (FE) integration of the coupled consolidation equations requires the solution of ...
Two solution schemes are proposed and compared for large 3D soil consolidation problems with nonasso...
To improve conditioning of matrices arising from the FE solution to Biot's consolidation equations, ...
Preconditioned projection (or conjugate gradient like) methods are increasingly used for the accurat...
Direct and iterative schemes are cmrently available to solve the large asymmetric sets of equations ...
Direct and iterative schemes are currently available to solve the large unsymmetric sets of equation...
Projection, or conjugate gradient like, methods are becoming increasingly popular for the efficient ...
Direct, partitioned, and projected (conjugate gradient-like) solution approaches are compared on uns...
The consolidation theory was developed in a three-dimensional (3D) setting by Biot, giving rise to a...
The Finite Element (FE) solution to consolidation equations in large geological settings raises a fe...
Matrix preconditioning is an important preliminary operation for the most efficient solution to spar...
The repeated solution in time of the linear system arising from the Finite Element (FE) integration ...
Block constraint preconditioners are a most recent development for the iterative solution to large-s...
The scaled boundary finite element method is extended to Biot's coupled consolidation to deal with f...
Paper reporting on adding biot's 3D coupled consolidation in fully saturated soils to the scaled bou...
The Finite Element (FE) integration of the coupled consolidation equations requires the solution of ...
Two solution schemes are proposed and compared for large 3D soil consolidation problems with nonasso...
To improve conditioning of matrices arising from the FE solution to Biot's consolidation equations, ...
Preconditioned projection (or conjugate gradient like) methods are increasingly used for the accurat...
Direct and iterative schemes are cmrently available to solve the large asymmetric sets of equations ...
Direct and iterative schemes are currently available to solve the large unsymmetric sets of equation...
Projection, or conjugate gradient like, methods are becoming increasingly popular for the efficient ...
Direct, partitioned, and projected (conjugate gradient-like) solution approaches are compared on uns...
The consolidation theory was developed in a three-dimensional (3D) setting by Biot, giving rise to a...
The Finite Element (FE) solution to consolidation equations in large geological settings raises a fe...
Matrix preconditioning is an important preliminary operation for the most efficient solution to spar...
The repeated solution in time of the linear system arising from the Finite Element (FE) integration ...
Block constraint preconditioners are a most recent development for the iterative solution to large-s...
The scaled boundary finite element method is extended to Biot's coupled consolidation to deal with f...
Paper reporting on adding biot's 3D coupled consolidation in fully saturated soils to the scaled bou...
The Finite Element (FE) integration of the coupled consolidation equations requires the solution of ...
Two solution schemes are proposed and compared for large 3D soil consolidation problems with nonasso...