International audienceThis paper shows a tentative integration of theory and applications in a single framework based on a Java approach in the context of parallel computing. We develop a unifying Java paradigm for integrating variational statements in a Java computational application. At last, we present Java technologies in the context of concurrent and distributed application
The Java language first came to public attention in 1995. Within a year, it was being speculated tha...
Java provides support for parallel computing through a model that is built into the language itself....
AbstractIn the past years, multi-core processors and clusters of multi-core processors have emerged ...
International audienceThis paper shows a tentative integration of theory and applications in a singl...
We discuss the role of Java and Web technologies for general simulation. We classify the classes of ...
The purpose of this paper is to address new tracks for the future generation ofcomputational applica...
We have prototyped a multi-paradigm parallel programming toolkit in Java, specifically targeting an ...
This paper reports three phases of development of a. Java-based distributed system for the implement...
As a relatively straightforward object-oriented language, Java is a plausible basis for a scientific...
This paper explains the programming aspects of a promising Java-based programming and execution fram...
The success of computational science to accurately describe and model the real world has helped to f...
To ease the task of programming parallel and distributed applications, the Do! project aims at the a...
from object-oriented programming techniques because of their flexible and modular program developmen...
The new era of multi-core processing challenges software designers to efficiently exploit the parall...
Scientific software frequently demands high performance in order to execute complex models in accept...
The Java language first came to public attention in 1995. Within a year, it was being speculated tha...
Java provides support for parallel computing through a model that is built into the language itself....
AbstractIn the past years, multi-core processors and clusters of multi-core processors have emerged ...
International audienceThis paper shows a tentative integration of theory and applications in a singl...
We discuss the role of Java and Web technologies for general simulation. We classify the classes of ...
The purpose of this paper is to address new tracks for the future generation ofcomputational applica...
We have prototyped a multi-paradigm parallel programming toolkit in Java, specifically targeting an ...
This paper reports three phases of development of a. Java-based distributed system for the implement...
As a relatively straightforward object-oriented language, Java is a plausible basis for a scientific...
This paper explains the programming aspects of a promising Java-based programming and execution fram...
The success of computational science to accurately describe and model the real world has helped to f...
To ease the task of programming parallel and distributed applications, the Do! project aims at the a...
from object-oriented programming techniques because of their flexible and modular program developmen...
The new era of multi-core processing challenges software designers to efficiently exploit the parall...
Scientific software frequently demands high performance in order to execute complex models in accept...
The Java language first came to public attention in 1995. Within a year, it was being speculated tha...
Java provides support for parallel computing through a model that is built into the language itself....
AbstractIn the past years, multi-core processors and clusters of multi-core processors have emerged ...