AbstractThe # (hash) component model has been proposed to bring the advantages of a component-based perspective of software for the development of high performance computing applications, targeting computer architectures enabled for grid, cluster and capability computing. In simple terms, it is a component model for general purpose parallel programming targeting distributed architectures. This paper presents an institutional theory for #-components, which has originated the idea of introducing parameterized and recursive abstract component types in # programming systems, making possible a general notion of skeletal programming
Due to the increased complexity of applications, the distributed hierarchy architecture of clusters ...
Computational devices are rapidly evolving into massively parallel systems. Multicore processors ar...
Institute for Computing Systems ArchitectureThe programming of parallel computers is recognised as b...
AbstractThe # (hash) component model has been proposed to bring the advantages of a component-based ...
Abstract. Motivated by the inadequacy of current parallel program-ming artifacts, the # component mo...
Component-based programming has been applied to ad-dress the requirements of High Performance Comput...
The development of new High Performance Computing (HPC) application has demanded a set of tools for ...
AbstractThe # (hash) component model aims to take advantage of a component-based perspective of soft...
Since processor performance scalability will now mostly be achieved through thread-level parallelism...
International audienceIn the seek of more computing power, two sources of complexity are to face. On...
In order to deal with programming-in-the-large requirements in emerging applications of High Perform...
Most conventional approaches to parallel programming are based on some basic kinds of synchronized m...
International audienceScientific numerical applications are always expecting more computing and stor...
The nature of scientific programming is evolving to larger, composite applications that are composed...
Component oriented distributed computing uses a collection of different types of components to achie...
Due to the increased complexity of applications, the distributed hierarchy architecture of clusters ...
Computational devices are rapidly evolving into massively parallel systems. Multicore processors ar...
Institute for Computing Systems ArchitectureThe programming of parallel computers is recognised as b...
AbstractThe # (hash) component model has been proposed to bring the advantages of a component-based ...
Abstract. Motivated by the inadequacy of current parallel program-ming artifacts, the # component mo...
Component-based programming has been applied to ad-dress the requirements of High Performance Comput...
The development of new High Performance Computing (HPC) application has demanded a set of tools for ...
AbstractThe # (hash) component model aims to take advantage of a component-based perspective of soft...
Since processor performance scalability will now mostly be achieved through thread-level parallelism...
International audienceIn the seek of more computing power, two sources of complexity are to face. On...
In order to deal with programming-in-the-large requirements in emerging applications of High Perform...
Most conventional approaches to parallel programming are based on some basic kinds of synchronized m...
International audienceScientific numerical applications are always expecting more computing and stor...
The nature of scientific programming is evolving to larger, composite applications that are composed...
Component oriented distributed computing uses a collection of different types of components to achie...
Due to the increased complexity of applications, the distributed hierarchy architecture of clusters ...
Computational devices are rapidly evolving into massively parallel systems. Multicore processors ar...
Institute for Computing Systems ArchitectureThe programming of parallel computers is recognised as b...