Dynamic load balancing(DLB) for parallel systems has been studied extensively; however, DLB for distributed systems is relatively new. To efficiently utilize computing resources provided by distributed systems, an underlying DLB scheme must address both heterogeneous and dynamic features of distributed systems. In this paper, we propose a DLB scheme for Structured Adaptive Mesh Refinement(SAMR) applications on distributed systems. While the proposed scheme can take into consideration (1) the heterogeneity of processors and (2) the heterogeneity and dynamic load of the networks, the focus of this paper is on the latter. The load-balancing processes are divided into two phases: global load balancing and local load balancing. We also provide a...
This research demonstrates that the automatic implementation of a dynamic load balancing (DLB) strat...
In parallel distributed computing system, lightly and overloaded nodes can cause load imbalancing an...
Distributed systems are gradually being accepted as the dominant computing paradigm of the future. H...
Abstract. Dynamic load balancing(DLB) for parallel systems has been studied extensively; however, DL...
We perform a comprehensive performance characterization of load balancing algorithms for parallel st...
Abstract. This paper presents the design and experimental evaluation of two dynamic load partitionin...
A large class of computational problems are characterised by frequent synchronisation, and computati...
This chapter describes a parallel optimization technique that incorporates a distributed load-balanc...
International audienceWith the technological progress, distributed systems are widely used for paral...
The overall efficiency of parallel algorithms is most decisively effected by the strategy applied fo...
A parallel method for the dynamic partitioning of unstructured meshes is outlined. The method includ...
Load balancing in large parallel systems with distributed memory is a difficult task often influenci...
Dynamic load balancing techniques have proved to be the most critical part of an efficient implement...
We propose an adaptive load balancing algorithm for heterogeneous distributed systems. The algorithm...
Dynamic load balancing techniques have been shown to be the most critical part of an efficient imple...
This research demonstrates that the automatic implementation of a dynamic load balancing (DLB) strat...
In parallel distributed computing system, lightly and overloaded nodes can cause load imbalancing an...
Distributed systems are gradually being accepted as the dominant computing paradigm of the future. H...
Abstract. Dynamic load balancing(DLB) for parallel systems has been studied extensively; however, DL...
We perform a comprehensive performance characterization of load balancing algorithms for parallel st...
Abstract. This paper presents the design and experimental evaluation of two dynamic load partitionin...
A large class of computational problems are characterised by frequent synchronisation, and computati...
This chapter describes a parallel optimization technique that incorporates a distributed load-balanc...
International audienceWith the technological progress, distributed systems are widely used for paral...
The overall efficiency of parallel algorithms is most decisively effected by the strategy applied fo...
A parallel method for the dynamic partitioning of unstructured meshes is outlined. The method includ...
Load balancing in large parallel systems with distributed memory is a difficult task often influenci...
Dynamic load balancing techniques have proved to be the most critical part of an efficient implement...
We propose an adaptive load balancing algorithm for heterogeneous distributed systems. The algorithm...
Dynamic load balancing techniques have been shown to be the most critical part of an efficient imple...
This research demonstrates that the automatic implementation of a dynamic load balancing (DLB) strat...
In parallel distributed computing system, lightly and overloaded nodes can cause load imbalancing an...
Distributed systems are gradually being accepted as the dominant computing paradigm of the future. H...