Linear algebra kernels are in the core of many scientific applications. We propose a unified, performance-oriented, and portable interface for BLAS.Este trabajo forma parte del proyecto de investigación PCAS Grant TIN2017-88614-R y la Junta de Castilla y León, proyecto PROPHET, VA082P17
The functions library, called Basic Linear Algebra Subprograms (BLAS-1), is considered the programmi...
We discuss the interface design for the Sparse Basic Linear Algebra Subprograms (BLAS), the kernels ...
One of the main obstacles to the efficient solution of scientific problems is the problem of tuning ...
Scientific applications are some of the most computationally demanding software pieces. Their core i...
International audienceIn the last ten years, GPUs have dominated the market considering the computin...
This paper summarizes the BLAS Technical Forum Standard, a speci- #cation of a set of kernel routine...
Massively parallel computer systems, having thousands of identical processors operating in SIMD mode...
This paper gives a report on various results of the Linear Algebra Project on the Fujitsu AP1000 in ...
BLIS is a new software framework for instantiating high-performance BLAS-like dense linear algebra l...
The trend of using co-processors as accelerators to perform certain tasks is rising in the parallel...
This paper discusses the design of linear algebra libraries for high performance computers. Particul...
The increase in performance of the last generations of graphics processors (GPUs) has made this clas...
The BLAS-like Library Instantiation Software (BLIS) is a framework for the rapid instantiation of ba...
International audienceThis work deals with parallelism in linear algebra routines. We propose a doma...
The BLAS-like Library Instantiation Software (BLIS) is a framework for the rapid instantiation of ba...
The functions library, called Basic Linear Algebra Subprograms (BLAS-1), is considered the programmi...
We discuss the interface design for the Sparse Basic Linear Algebra Subprograms (BLAS), the kernels ...
One of the main obstacles to the efficient solution of scientific problems is the problem of tuning ...
Scientific applications are some of the most computationally demanding software pieces. Their core i...
International audienceIn the last ten years, GPUs have dominated the market considering the computin...
This paper summarizes the BLAS Technical Forum Standard, a speci- #cation of a set of kernel routine...
Massively parallel computer systems, having thousands of identical processors operating in SIMD mode...
This paper gives a report on various results of the Linear Algebra Project on the Fujitsu AP1000 in ...
BLIS is a new software framework for instantiating high-performance BLAS-like dense linear algebra l...
The trend of using co-processors as accelerators to perform certain tasks is rising in the parallel...
This paper discusses the design of linear algebra libraries for high performance computers. Particul...
The increase in performance of the last generations of graphics processors (GPUs) has made this clas...
The BLAS-like Library Instantiation Software (BLIS) is a framework for the rapid instantiation of ba...
International audienceThis work deals with parallelism in linear algebra routines. We propose a doma...
The BLAS-like Library Instantiation Software (BLIS) is a framework for the rapid instantiation of ba...
The functions library, called Basic Linear Algebra Subprograms (BLAS-1), is considered the programmi...
We discuss the interface design for the Sparse Basic Linear Algebra Subprograms (BLAS), the kernels ...
One of the main obstacles to the efficient solution of scientific problems is the problem of tuning ...