Mathematical software libraries (IMSL, NAG) supply subprograms for the solution of a broad class of frequently occurring numerical problems. Therefore, the library routines are normally used as building blocks in more complex computer codes. Users taking advantage of this approach can simplify code development and introduce expertise to their codes. The acceptance of mathematical software libraries is strongly related to the quality of their components. Results on the performance and accuracy of library subroutines for matrix multiplication, the solution of linear equations and eigenvalue problems on a CRAY X-MP are reported
The increasing availability of advanced-architecture computers is having a very significant effect o...
In this chapter we discuss how object-oriented techniques can be applied in the design and implemen...
International audienceIn this work, numerical algebraic operations are performed by using several li...
Mathematical software libraries represent collections of subprograms for the solution of frequently ...
AbstractMathematical software libraries represent collections of subprograms for the solution of fre...
This paper discusses the design of linear algebra libraries for high performance computers. Particul...
e propose to design and implement a transportable linear algebra library in Fortran 77 for efficient...
AbstractMenu-driven software is used to augment the teaching and study of linear algebra. The softwa...
Abstract. We present a systematic methodology for deriving and implementing linear algebra libraries...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
This paper describes an approach for the automatic generation and optimization of numerical softwar...
This paper presents an overview of the LAPACK library, a portable, public-domain library to solve th...
AbstractThe increasing availability of advanced-architecture computers has a significant effect on a...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
MPP systems with a message-passing programming paradigm such as CRAY T3E still play an important rol...
The increasing availability of advanced-architecture computers is having a very significant effect o...
In this chapter we discuss how object-oriented techniques can be applied in the design and implemen...
International audienceIn this work, numerical algebraic operations are performed by using several li...
Mathematical software libraries represent collections of subprograms for the solution of frequently ...
AbstractMathematical software libraries represent collections of subprograms for the solution of fre...
This paper discusses the design of linear algebra libraries for high performance computers. Particul...
e propose to design and implement a transportable linear algebra library in Fortran 77 for efficient...
AbstractMenu-driven software is used to augment the teaching and study of linear algebra. The softwa...
Abstract. We present a systematic methodology for deriving and implementing linear algebra libraries...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
This paper describes an approach for the automatic generation and optimization of numerical softwar...
This paper presents an overview of the LAPACK library, a portable, public-domain library to solve th...
AbstractThe increasing availability of advanced-architecture computers has a significant effect on a...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
MPP systems with a message-passing programming paradigm such as CRAY T3E still play an important rol...
The increasing availability of advanced-architecture computers is having a very significant effect o...
In this chapter we discuss how object-oriented techniques can be applied in the design and implemen...
International audienceIn this work, numerical algebraic operations are performed by using several li...