We provide experimental evidence that current desktop computers feature enough computational power to solve large-scale dense linear algebra problems. While the high computational cost of the numerical methods for solving these problems can be tackled by the multiple cores of current processors, we propose to use the disk to store the large data structures associated with these applications. Our results also show that the limited amount of RAM and the comparatively slow disk of the system pose no problem for the solution of very large dense linear systems and linear least-squares problems. Thus, current desktop computers are revealed as an appealing, cost-effective platform for research groups that have to deal with large dense linear algeb...
Abstract. On many high-speed computers the dense matrix technique is preferable to sparse matrix tec...
In this paper, we describe the design and implementation of the Platform Independent Parallel Solver...
This paper presents an overview of the LAPACK library, a portable, public-domain library to solve th...
Abstract: Few realize that, for large matrices, many dense matrix computations achieve nearly the sa...
AbstractThe increasing availability of advanced-architecture computers has a significant effect on a...
AbstractWe review the influence of the advent of high-performance computing on the solution of linea...
The increasing complexity of new parallel architectures has widened the gap between adaptability and...
This article surveys the current state of applications of large dense numerical linear algebra and t...
The huge amount of memory is needed for solving the large-scale linear equations. However, many prob...
This paper discusses the design of linear algebra libraries for high performance computers. Particul...
The Multicomputer Toolbox includes sparse, dense, and iterative scalable linear algebra libraries. D...
We survey recent developments in dense numerical linear algebra, covering linear systems, least squa...
AbstractThe solution of linear systems continues to play an important role in scientific computing. ...
International audienceThe increasing complexity of new parallel architectures has widened the gap be...
This report has been developed over the work done in the deliverable [Nava94] There it was shown tha...
Abstract. On many high-speed computers the dense matrix technique is preferable to sparse matrix tec...
In this paper, we describe the design and implementation of the Platform Independent Parallel Solver...
This paper presents an overview of the LAPACK library, a portable, public-domain library to solve th...
Abstract: Few realize that, for large matrices, many dense matrix computations achieve nearly the sa...
AbstractThe increasing availability of advanced-architecture computers has a significant effect on a...
AbstractWe review the influence of the advent of high-performance computing on the solution of linea...
The increasing complexity of new parallel architectures has widened the gap between adaptability and...
This article surveys the current state of applications of large dense numerical linear algebra and t...
The huge amount of memory is needed for solving the large-scale linear equations. However, many prob...
This paper discusses the design of linear algebra libraries for high performance computers. Particul...
The Multicomputer Toolbox includes sparse, dense, and iterative scalable linear algebra libraries. D...
We survey recent developments in dense numerical linear algebra, covering linear systems, least squa...
AbstractThe solution of linear systems continues to play an important role in scientific computing. ...
International audienceThe increasing complexity of new parallel architectures has widened the gap be...
This report has been developed over the work done in the deliverable [Nava94] There it was shown tha...
Abstract. On many high-speed computers the dense matrix technique is preferable to sparse matrix tec...
In this paper, we describe the design and implementation of the Platform Independent Parallel Solver...
This paper presents an overview of the LAPACK library, a portable, public-domain library to solve th...