At the heart of many computations in science and engineering lies the need to efficiently and accurately solve large sparse linear systems of equations. Direct methods are frequently the method of choice because of their robustness, accuracy and potential for use as black-box solvers. In the last few years, there have been many new developments, and a number of new modern parallel general-purpose sparse solvers have been written for inclusion within the HSL mathematical software library. In this paper, we introduce and briefly review these solvers for symmetric sparse systems. We describe the algorithms used, highlight key features (including bit-compatibility and out-of-core working) and then, using problems arising from a range of practic...
In Part I of this this paper, we proposed a new parallel bidirectional algorithm, based on Cholesky...
Abstract- The basic problems in developing parallel direct solvers of sparse systems of linear equat...
The availability of large-scale computing platforms comprised of tens of thousands of multicore proc...
On many current and emerging computing architectures, single-precision calculations are at least twi...
The need to solve large sparse linear systems of equations efficiently lies at the heart of many app...
We present an overview of parallel direct methods for solving sparse systems of linear equations, fo...
In recent years a number of solvers for the direct solution of large sparse symmetric linear systems...
In recent years, a number of new direct solvers for the solution of large sparse, symmetric linear s...
Sparse linear system of equations often arises after discretization of the partial differential equa...
In this paper, we present the main algorithmic features in the software package SuperLU DIST, a dis...
In this paper, we present the main algorithmic features in the software package SuperLU{_}DIST, a di...
International audienceIn this talk we will discuss our research activities on the design of parallel...
In this paper, we present the main algorithmic features in the software package SuperLU_DIST, a dis...
This paper provides a comprehensive study and comparison of two state-of-the-art direct solvers for ...
International audienceIn this talk we will discuss our research activities on the design of parallel...
In Part I of this this paper, we proposed a new parallel bidirectional algorithm, based on Cholesky...
Abstract- The basic problems in developing parallel direct solvers of sparse systems of linear equat...
The availability of large-scale computing platforms comprised of tens of thousands of multicore proc...
On many current and emerging computing architectures, single-precision calculations are at least twi...
The need to solve large sparse linear systems of equations efficiently lies at the heart of many app...
We present an overview of parallel direct methods for solving sparse systems of linear equations, fo...
In recent years a number of solvers for the direct solution of large sparse symmetric linear systems...
In recent years, a number of new direct solvers for the solution of large sparse, symmetric linear s...
Sparse linear system of equations often arises after discretization of the partial differential equa...
In this paper, we present the main algorithmic features in the software package SuperLU DIST, a dis...
In this paper, we present the main algorithmic features in the software package SuperLU{_}DIST, a di...
International audienceIn this talk we will discuss our research activities on the design of parallel...
In this paper, we present the main algorithmic features in the software package SuperLU_DIST, a dis...
This paper provides a comprehensive study and comparison of two state-of-the-art direct solvers for ...
International audienceIn this talk we will discuss our research activities on the design of parallel...
In Part I of this this paper, we proposed a new parallel bidirectional algorithm, based on Cholesky...
Abstract- The basic problems in developing parallel direct solvers of sparse systems of linear equat...
The availability of large-scale computing platforms comprised of tens of thousands of multicore proc...