[[abstract]]Applications with divisible loads have such a rich source of parallelism that their parallelization can significantly reduce their total completion time on grid computing environments. However, it is a challenge for grid users, probably scientists and engineers, to develop their applications which can exploit the computing power of the grid. We propose a performance-based skeleton algorithm for implementing divisible load applications on grids. Following this skeleton, novice grid programmers can easily develop a high performance grid application. To examine the performance of programs developed by this approach, we apply this skeleton to implement three kinds of applications and conduct experiments on our grid test-bed. Experim...
Abstract: Scheduling divisible workloads in distributed systems has been one of the interesting res...
According to the special features of the dynamic heterogeneous grid environment, a loose-coupled and...
Abstract. Grids functionally combine globally distributed computers and information systems for crea...
[[abstract]]Applications with divisible loads have such a rich source of parallelism that their para...
Problem statement: In many data grid applications, data can be decomposed into multiple independent ...
Divisible load applications consist of an amount of data and associated computation that can be divi...
We address the challenging problem of algorithm and program design for the Computational Grid by pr...
Abstract: Scheduling an application in data grid was significantly complex and very challenging beca...
In many data grid applications, data can be decomposed into multiple independent sub-datasets and di...
International audienceDivisible load applications consist of an amount of data and associated comput...
In many data grid applications, data can be decomposed into multiple independent sub data sets and d...
Grids functionally combine globally distributed computers and information systems for creating a uni...
Divisible load applications consist of a load, that is input data and associated computation, that c...
In many data grid applications, data can be decomposed into multiple independent sub datasets and d...
In many data grid applications, data can be decomposed into multiple independent sub datasets and di...
Abstract: Scheduling divisible workloads in distributed systems has been one of the interesting res...
According to the special features of the dynamic heterogeneous grid environment, a loose-coupled and...
Abstract. Grids functionally combine globally distributed computers and information systems for crea...
[[abstract]]Applications with divisible loads have such a rich source of parallelism that their para...
Problem statement: In many data grid applications, data can be decomposed into multiple independent ...
Divisible load applications consist of an amount of data and associated computation that can be divi...
We address the challenging problem of algorithm and program design for the Computational Grid by pr...
Abstract: Scheduling an application in data grid was significantly complex and very challenging beca...
In many data grid applications, data can be decomposed into multiple independent sub-datasets and di...
International audienceDivisible load applications consist of an amount of data and associated comput...
In many data grid applications, data can be decomposed into multiple independent sub data sets and d...
Grids functionally combine globally distributed computers and information systems for creating a uni...
Divisible load applications consist of a load, that is input data and associated computation, that c...
In many data grid applications, data can be decomposed into multiple independent sub datasets and d...
In many data grid applications, data can be decomposed into multiple independent sub datasets and di...
Abstract: Scheduling divisible workloads in distributed systems has been one of the interesting res...
According to the special features of the dynamic heterogeneous grid environment, a loose-coupled and...
Abstract. Grids functionally combine globally distributed computers and information systems for crea...