Abstract. We present a contribution on dynamic load balancing for distributed and parallel object-oriented applications. We specially target on peer to peer computing and its capability to distribute parallel computation, which transfer large amount of data (called intensive-communicated applications) among large number of processors. We explain the relation between active objects and proces-sors load. Using this relation, and defining an order relation among processors, we describe our active object balance algorithm as a dynamic load balance algorithm, focusing on minimizing the time when active objects are waiting for the comple-tion of remote calls. We benchmark a Jacobi parallel application with several load balancing algorithms. Final...
We developed a diffusive load balancing scheme that equalizes the available capacities of nodes in a...
Load balancing is one of the main challenges of every structured peer-to-peer (P2P) system that uses...
In this paper, a replication-based parallel object model will be presented first, where object repli...
We present a contribution on dynamic load balancing for distributed and parallel object-oriented app...
We present a contribution on dynamic load balancing for distributed and parallel object-oriented app...
The paper addresses dynamic allocation of objects in a distributed object-oriented (OO for short) pr...
The paper presents the mechanisms for dynamic load distribution implemented within the support for t...
Abstract. Many parallel applications are highly dynamic in nature. In some, computation and communic...
A parallel concurrent application runs most efficiently and quickly when the workload is distributed...
In this paper, a parallel object collection (POC) model is introduced to support data parallelism in...
The overall efficiency of parallel algorithms is most decisively effected by the strategy applied fo...
In this thesis, we study load balancing and overload control in two distributed architectures: Distr...
Migration is a fundamental mechanism for achieving load balancing and locality of references in para...
In parallel computing, obtaining maximal performance is often mandatory to solve large and complex p...
Efficient parallel computing on distributed platforms still presents many obstacles. This paper addr...
We developed a diffusive load balancing scheme that equalizes the available capacities of nodes in a...
Load balancing is one of the main challenges of every structured peer-to-peer (P2P) system that uses...
In this paper, a replication-based parallel object model will be presented first, where object repli...
We present a contribution on dynamic load balancing for distributed and parallel object-oriented app...
We present a contribution on dynamic load balancing for distributed and parallel object-oriented app...
The paper addresses dynamic allocation of objects in a distributed object-oriented (OO for short) pr...
The paper presents the mechanisms for dynamic load distribution implemented within the support for t...
Abstract. Many parallel applications are highly dynamic in nature. In some, computation and communic...
A parallel concurrent application runs most efficiently and quickly when the workload is distributed...
In this paper, a parallel object collection (POC) model is introduced to support data parallelism in...
The overall efficiency of parallel algorithms is most decisively effected by the strategy applied fo...
In this thesis, we study load balancing and overload control in two distributed architectures: Distr...
Migration is a fundamental mechanism for achieving load balancing and locality of references in para...
In parallel computing, obtaining maximal performance is often mandatory to solve large and complex p...
Efficient parallel computing on distributed platforms still presents many obstacles. This paper addr...
We developed a diffusive load balancing scheme that equalizes the available capacities of nodes in a...
Load balancing is one of the main challenges of every structured peer-to-peer (P2P) system that uses...
In this paper, a replication-based parallel object model will be presented first, where object repli...