Add to ORKGThis paper outlines the content and performance of ScaLAPACK, a collection of mathematical software for linear algebra computations on distributed memory computers. The importance of developing standards for computational and message passing interfaces is discussed. We present the different components and building blocks of ScaLAPACK, and indicate the difficulties inherent in producing correct codes for networks of heterogeneous processors. Finally, this paper briefly describes future directions for the ScaLAPACK library and concludes by suggesting alternative approaches to mathematical libraries
The ScaLAPACK library for parallel dense matrix computations is built on top of the BLACS communicat...
e propose to design and implement a transportable linear algebra library in Fortran 77 for efficient...
Software overheads can be a significant cause of performance degradation in parallel numerical libra...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
This article outlines the content and performance of some of the ScaLAPACK software. ScaLAPACK is a ...
This paper describes the design of ScaLAPACK, a scalable software library for performing dense and b...
We describe the design of ScaLAPACK++, an object oriented C++ library for implementing linear algebr...
This paper discusses the design of linear algebra libraries for high performance computers. Particul...
We describe the design of ScaLAPACK++, an object oriented C++ library for implementing linear algebr...
This paper discusses the scalability of Cholesky, LU, and QR factorization routines on MIMD distribu...
The aim of this course is to introduced the basic usages of the ScaLAPACK and MAGMA libraries ScaLA...
The aim of this course is to introduced the basic usages of the ScaLAPACK and MAGMA libraries ScaLA...
The aim of this course is to introduced the basic usages of the ScaLAPACK and MAGMA libraries ScaLA...
This paper discusses the scalability of Cholesky, LU, and QR factorization routines on MIMD distribu...
The ScaLAPACK library for parallel dense matrix computations is built on top of the BLACS communicat...
e propose to design and implement a transportable linear algebra library in Fortran 77 for efficient...
Software overheads can be a significant cause of performance degradation in parallel numerical libra...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
This article outlines the content and performance of some of the ScaLAPACK software. ScaLAPACK is a ...
This paper describes the design of ScaLAPACK, a scalable software library for performing dense and b...
We describe the design of ScaLAPACK++, an object oriented C++ library for implementing linear algebr...
This paper discusses the design of linear algebra libraries for high performance computers. Particul...
We describe the design of ScaLAPACK++, an object oriented C++ library for implementing linear algebr...
This paper discusses the scalability of Cholesky, LU, and QR factorization routines on MIMD distribu...
The aim of this course is to introduced the basic usages of the ScaLAPACK and MAGMA libraries ScaLA...
The aim of this course is to introduced the basic usages of the ScaLAPACK and MAGMA libraries ScaLA...
The aim of this course is to introduced the basic usages of the ScaLAPACK and MAGMA libraries ScaLA...
This paper discusses the scalability of Cholesky, LU, and QR factorization routines on MIMD distribu...
The ScaLAPACK library for parallel dense matrix computations is built on top of the BLACS communicat...
e propose to design and implement a transportable linear algebra library in Fortran 77 for efficient...
Software overheads can be a significant cause of performance degradation in parallel numerical libra...