With availability of large-scale parallel platforms comprised of tens-of-thousands of processors and beyond, there is significant impetus for the development of scalable parallel sparse linear system solvers and preconditioners. An integral part of this design process is the development of performance models capable of predicting performance and providing accurate cost models for the solvers and preconditioners. There has been some work in the past on characterizing performance of the iterative solvers themselves. In this paper, we investigate the problem of characterizing performance and scalability of banded preconditioners. Recent work has demonstrated the superior convergence properties and robustness of banded preconditioners, compared...
This paper provides a comprehensive study and comparison of two state-of-the-art direct solvers for ...
The truncated SPIKE algorithm is a parallel solver for linear systems which are banded and strictly ...
Solving large-scale systems of linear equations [] { } {}bxA = is one of the most expensive and cr...
The emergence of multicore architectures and highly scalable platforms motivates the development of ...
The emergence of multicore architectures and highly scalable platforms motivates the development of ...
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...
We propose a parallel sparse triangular linear system solver based on the Spike algorithm. Sparse tr...
The SPIKE algorithm [1, 2] is an efficient generic divide-and-conquer algorithm for solving banded s...
Solving large sparse linear systems is at the heart of many application problems arising from scient...
Banded linear systems with large bandwidths can be solved by similar methods as full linear systems....
We analyze the efficiency of servers equipped with state-of-the-art general-purpose multicore proces...
. We investigate and compare stable parallel algorithms for solving diagonally dominant and general ...
A new parallel solver based on SPIKE-TA algorithm has been developed using OpenMP API for solving d...
We study the performance of a two-level algebraic-multigrid algorithm, with a focus on the impact of...
This paper provides a comprehensive study and comparison of two state-of-the-art direct solvers for ...
The truncated SPIKE algorithm is a parallel solver for linear systems which are banded and strictly ...
Solving large-scale systems of linear equations [] { } {}bxA = is one of the most expensive and cr...
The emergence of multicore architectures and highly scalable platforms motivates the development of ...
The emergence of multicore architectures and highly scalable platforms motivates the development of ...
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...
We propose a parallel sparse triangular linear system solver based on the Spike algorithm. Sparse tr...
The SPIKE algorithm [1, 2] is an efficient generic divide-and-conquer algorithm for solving banded s...
Solving large sparse linear systems is at the heart of many application problems arising from scient...
Banded linear systems with large bandwidths can be solved by similar methods as full linear systems....
We analyze the efficiency of servers equipped with state-of-the-art general-purpose multicore proces...
. We investigate and compare stable parallel algorithms for solving diagonally dominant and general ...
A new parallel solver based on SPIKE-TA algorithm has been developed using OpenMP API for solving d...
We study the performance of a two-level algebraic-multigrid algorithm, with a focus on the impact of...
This paper provides a comprehensive study and comparison of two state-of-the-art direct solvers for ...
The truncated SPIKE algorithm is a parallel solver for linear systems which are banded and strictly ...
Solving large-scale systems of linear equations [] { } {}bxA = is one of the most expensive and cr...