International audienceThis article presents JACEP2P-V2, a Java environment dedicated to designing parallel iterative asynchronous algorithms (with direct communications between nodes) and executing them on global computing architectures or distributed clusters composed by a large number of volatile heterogeneous distant computing nodes. This platform is fault tolerant, multi-threaded and completely decentralized. In this paper, we describe the diï¬erent components of JACEP2P-V2 and the various mechanisms used for scalability and fault tolerance purposes. We also evaluate the performance of this platform and we compare it to JACEP2P by implementing a parallel iterative asynchronous application and by executing it on a volatile distributed ar...
International audienceWe study the impact of asynchronism on parallel iterative algorithms in the pa...
The number of processors embedded in high performance computing platforms is growing daily to solve ...
Java is becoming an increasingly popular language for developing distributed and parallel scientific...
International audienceThis article presents an algorithm that performs a decentralized detection of ...
International audienceThis paper presents many typical problems that are encountered when executing ...
International audienceThis paper presents new adaptations of two methods that solve large differenti...
La technologie actuelle permet aux scientifiques de divers domaines d'obtenir des données de plus en...
International audienceThe asynchronous iteration model, called AIAC, has been proven to be an efficien...
International audienceThis paper describes the implementation of Hyperion, an environment for execut...
International audienceThis chapter describes the P2P-MPI project, a software framework aimed at the ...
The last decade has witnessed unprecedented changes in parallel and distributed infrastructures. Due...
International audienceThis paper focuses on large scale experiments with Java and asynchronous itera...
The 14 chapters presented in this book cover a wide variety of representative works ranging from har...
The goal of this research was to investigate the potential for employing dynamic, decentralized soft...
The current technology allows scientists of several domains to obtain more precise and large data. I...
International audienceWe study the impact of asynchronism on parallel iterative algorithms in the pa...
The number of processors embedded in high performance computing platforms is growing daily to solve ...
Java is becoming an increasingly popular language for developing distributed and parallel scientific...
International audienceThis article presents an algorithm that performs a decentralized detection of ...
International audienceThis paper presents many typical problems that are encountered when executing ...
International audienceThis paper presents new adaptations of two methods that solve large differenti...
La technologie actuelle permet aux scientifiques de divers domaines d'obtenir des données de plus en...
International audienceThe asynchronous iteration model, called AIAC, has been proven to be an efficien...
International audienceThis paper describes the implementation of Hyperion, an environment for execut...
International audienceThis chapter describes the P2P-MPI project, a software framework aimed at the ...
The last decade has witnessed unprecedented changes in parallel and distributed infrastructures. Due...
International audienceThis paper focuses on large scale experiments with Java and asynchronous itera...
The 14 chapters presented in this book cover a wide variety of representative works ranging from har...
The goal of this research was to investigate the potential for employing dynamic, decentralized soft...
The current technology allows scientists of several domains to obtain more precise and large data. I...
International audienceWe study the impact of asynchronism on parallel iterative algorithms in the pa...
The number of processors embedded in high performance computing platforms is growing daily to solve ...
Java is becoming an increasingly popular language for developing distributed and parallel scientific...