We discuss the role of Java and Web technologies for general simulation. We classify the classes of concurrency typical in problems and analyze separately the role of Java in user interfaces, coarse grain software integration, and detailed computational kernels. We conclude that Java could become a major language for computational science, as it potentially offers good performance, excellent user interfaces, and the advantages of object-oriented structure
The Java language first came to public attention in 1995. Within a year, it was being speculated tha...
High Performance Computing has made significant strides in the distributed simulation community. The...
We discuss the use of World Wide Web-based Java simulations in teaching physics to K{12 and undergra...
We consider the possible role of Java as a language for High Performance Computing. After discussing...
The Java programming language has a number of features that make it attractive for writing high-qual...
The Java programming language and environment is inspiring new research activities in many areas of ...
In this paper an overview is given on the "Have Java" project to attain a pure Java parallel Navier-...
from object-oriented programming techniques because of their flexible and modular program developmen...
International audienceThis paper shows a tentative integration of theory and applications in a singl...
We present designs for Java interfaces to High Performance Computing softwares, and research impleme...
Key Results: A simulation platform for microprocessor architectures written in Java. The simulation...
As a relatively straightforward object-oriented language, Java is a plausible basis for a scientific...
With most of today's fast scientific software written in Fortran and C, Java has a lot of catching u...
The success of computational science to accurately describe and model the real world has helped to f...
Abstract. The Java programming language has its origins in the de-velopment of portable internet app...
The Java language first came to public attention in 1995. Within a year, it was being speculated tha...
High Performance Computing has made significant strides in the distributed simulation community. The...
We discuss the use of World Wide Web-based Java simulations in teaching physics to K{12 and undergra...
We consider the possible role of Java as a language for High Performance Computing. After discussing...
The Java programming language has a number of features that make it attractive for writing high-qual...
The Java programming language and environment is inspiring new research activities in many areas of ...
In this paper an overview is given on the "Have Java" project to attain a pure Java parallel Navier-...
from object-oriented programming techniques because of their flexible and modular program developmen...
International audienceThis paper shows a tentative integration of theory and applications in a singl...
We present designs for Java interfaces to High Performance Computing softwares, and research impleme...
Key Results: A simulation platform for microprocessor architectures written in Java. The simulation...
As a relatively straightforward object-oriented language, Java is a plausible basis for a scientific...
With most of today's fast scientific software written in Fortran and C, Java has a lot of catching u...
The success of computational science to accurately describe and model the real world has helped to f...
Abstract. The Java programming language has its origins in the de-velopment of portable internet app...
The Java language first came to public attention in 1995. Within a year, it was being speculated tha...
High Performance Computing has made significant strides in the distributed simulation community. The...
We discuss the use of World Wide Web-based Java simulations in teaching physics to K{12 and undergra...