The emergence of multicore architectures and highly scalable platforms motivates the development of novel algorithms and techniques that emphasize concurrency and are tolerant of deep memory hierarchies, as opposed to minimizing raw FLOP counts. While direct solvers are reliable, they are often slow and memory-intensive for large problems. Iterative solvers, on the other hand, are more efficient but, in the absence of robust preconditioners, lack reliability. While preconditioners based on incomplete factorizations ( whenever they exist) are effective for many problems, their parallel scalability is generally limited. In this paper, we advocate the use of banded preconditioners instead and introduce a reordering strategy that enables their ...
Large sparse linear systems involving millions and even billions of equations are becoming in-creasi...
This article surveys preconditioning techniques for the iterative solution of large linear systems, ...
This is the pre-peer reviewed version of the following article: Adaptive precision in block‐Jacobi p...
The emergence of multicore architectures and highly scalable platforms motivates the development of ...
With availability of large-scale parallel platforms comprised of tens-of-thousands of processors and...
We present implementation details of a reordering strategy for permuting elements whose absolute val...
Solving large-scale systems of linear equations [] { } {}bxA = is one of the most expensive and cr...
We review current methods for preconditioning systems of equations for their solution using iterativ...
This contribution outlines an approach that draws on general purpose graphics processing unit (GPGPU...
The explicit Spike algorithm applies to narrow banded linear systems which are strictly diagonally d...
A popular class of preconditioners is known as incomplete factorizations. They can be thought of as ...
International audienceIn the context of solving sparse linear systems, an ordering process partition...
Banded linear systems with large bandwidths can be solved by similar methods as full linear systems....
. We investigate and compare stable parallel algorithms for solving diagonally dominant and general ...
In this paper, we introduce a class of recursive multilevel preconditioning strategies suited for so...
Large sparse linear systems involving millions and even billions of equations are becoming in-creasi...
This article surveys preconditioning techniques for the iterative solution of large linear systems, ...
This is the pre-peer reviewed version of the following article: Adaptive precision in block‐Jacobi p...
The emergence of multicore architectures and highly scalable platforms motivates the development of ...
With availability of large-scale parallel platforms comprised of tens-of-thousands of processors and...
We present implementation details of a reordering strategy for permuting elements whose absolute val...
Solving large-scale systems of linear equations [] { } {}bxA = is one of the most expensive and cr...
We review current methods for preconditioning systems of equations for their solution using iterativ...
This contribution outlines an approach that draws on general purpose graphics processing unit (GPGPU...
The explicit Spike algorithm applies to narrow banded linear systems which are strictly diagonally d...
A popular class of preconditioners is known as incomplete factorizations. They can be thought of as ...
International audienceIn the context of solving sparse linear systems, an ordering process partition...
Banded linear systems with large bandwidths can be solved by similar methods as full linear systems....
. We investigate and compare stable parallel algorithms for solving diagonally dominant and general ...
In this paper, we introduce a class of recursive multilevel preconditioning strategies suited for so...
Large sparse linear systems involving millions and even billions of equations are becoming in-creasi...
This article surveys preconditioning techniques for the iterative solution of large linear systems, ...
This is the pre-peer reviewed version of the following article: Adaptive precision in block‐Jacobi p...