The Common Component Architecture (CCA) provides a means for software developers to manage the complexity of large-scale scientific simulations and to move toward a plug-and-play environment for high-performance computing. In the scientific computing context, component models also promote collaboration using independently developed software, thereby allowing particular individuals or groups to focus on the aspects of greatest interest to them. The CCA supports parallel and distributed computing as well as local high-performance connections betwee
This work targets the emerging use of software component technology for high-performance scientific ...
We present a case study of performance measurement and modeling of a CCA (Common Component Architect...
International audienceIn the seek of more computing power, two sources of complexity are to face. On...
The Common Component Architecture (CCA) provides a means for software developers to manage the compl...
The Common Component Architecture (CCA) effort is the embodiment of a long-range program of research...
The Common Component Architecture (CCA) is a component-based methodology for developing scientific s...
Abstract. In this paper we describe the design and implementation of a C++ based Common Component Ar...
Summary. The complexity of parallel PDE-based simulations continues to increase as multimodel, multi...
Computational chemists are using Common Component Architecture (CCA) technology to increase the para...
Summary. The complexity of parallel PDE-based simulations continues to increase as multi-model, mult...
Cutting-edge scientific computing software is complex, increasingly involving the coupling of multip...
Software Component Frameworks are well known in the commercial business application world and now th...
This paper describes work in progress to develop a standard for interoperability among high-performa...
Earth system and environmental models present the scientist/programmer with multiple challenges in s...
We are developing new software component technology for high-performance parallel scientific computi...
This work targets the emerging use of software component technology for high-performance scientific ...
We present a case study of performance measurement and modeling of a CCA (Common Component Architect...
International audienceIn the seek of more computing power, two sources of complexity are to face. On...
The Common Component Architecture (CCA) provides a means for software developers to manage the compl...
The Common Component Architecture (CCA) effort is the embodiment of a long-range program of research...
The Common Component Architecture (CCA) is a component-based methodology for developing scientific s...
Abstract. In this paper we describe the design and implementation of a C++ based Common Component Ar...
Summary. The complexity of parallel PDE-based simulations continues to increase as multimodel, multi...
Computational chemists are using Common Component Architecture (CCA) technology to increase the para...
Summary. The complexity of parallel PDE-based simulations continues to increase as multi-model, mult...
Cutting-edge scientific computing software is complex, increasingly involving the coupling of multip...
Software Component Frameworks are well known in the commercial business application world and now th...
This paper describes work in progress to develop a standard for interoperability among high-performa...
Earth system and environmental models present the scientist/programmer with multiple challenges in s...
We are developing new software component technology for high-performance parallel scientific computi...
This work targets the emerging use of software component technology for high-performance scientific ...
We present a case study of performance measurement and modeling of a CCA (Common Component Architect...
International audienceIn the seek of more computing power, two sources of complexity are to face. On...