Abstract—In large-scale grid platforms, providing fault-tolerance for users is always a challenging task because of the uncertainty of network resources. In this paper, we present an intelligent agent based meta-scheduler, which is aiming at improving the fault-tolerance of grid systems when running user’s application. The proposed meta-scheduler is designed as an extendable framework, which allows plugging in multiple scheduling policies for deal with different scenarios. The agent-based scheduling framework enables grid systems to deploy their local schedulers in a flexible manner. Extensive experiments are conducted to investigate the performance of the proposed meta-scheduler, and the results show that it is effective to provide enhance...
Grid technologies have enabled the aggregation of geographically distributed resources, in the conte...
ABSTRACT As grids are in essence heterogeneous, dynamic, shared and distributed environments, manag...
AbstractPeer to peer (P2P) grid systems consist of nodes present in multiple organizations and sprea...
Because of computational grid heterogeneity, scale and complexity, faults become likely. Therefore, ...
Grid environment, being a collection of heterogeneous and geographically distributed resources, is p...
Abstract: Grid computing is considered to be wide area distributed computing which provides sharing,...
Grid computing supports workload execution on computing resources that are shared across a set of co...
In this paper, we propose a scalable and fault-tolerant job scheduling framework for grid computing....
Grid systems are complex computational organizations made of several interacting components evolving...
Abstract: The Scheduling process in Large Scale Distributed Systems (LSDS) became more important due...
One of the main problems in distributed high-performance computing is how to allocate, schedule, ef...
Workflow brokers of existing Grid Scheduling Systems are lack of cooperation mechanism which causes ...
Computer grids are systems containing heterogeneous, autonomous and geographically distributed nodes...
One of the interesting topics in grid computing systems is resources discovery. After the failure of...
none5siThe management of Grid systems commonly lacks information for identifying the failures that m...
Grid technologies have enabled the aggregation of geographically distributed resources, in the conte...
ABSTRACT As grids are in essence heterogeneous, dynamic, shared and distributed environments, manag...
AbstractPeer to peer (P2P) grid systems consist of nodes present in multiple organizations and sprea...
Because of computational grid heterogeneity, scale and complexity, faults become likely. Therefore, ...
Grid environment, being a collection of heterogeneous and geographically distributed resources, is p...
Abstract: Grid computing is considered to be wide area distributed computing which provides sharing,...
Grid computing supports workload execution on computing resources that are shared across a set of co...
In this paper, we propose a scalable and fault-tolerant job scheduling framework for grid computing....
Grid systems are complex computational organizations made of several interacting components evolving...
Abstract: The Scheduling process in Large Scale Distributed Systems (LSDS) became more important due...
One of the main problems in distributed high-performance computing is how to allocate, schedule, ef...
Workflow brokers of existing Grid Scheduling Systems are lack of cooperation mechanism which causes ...
Computer grids are systems containing heterogeneous, autonomous and geographically distributed nodes...
One of the interesting topics in grid computing systems is resources discovery. After the failure of...
none5siThe management of Grid systems commonly lacks information for identifying the failures that m...
Grid technologies have enabled the aggregation of geographically distributed resources, in the conte...
ABSTRACT As grids are in essence heterogeneous, dynamic, shared and distributed environments, manag...
AbstractPeer to peer (P2P) grid systems consist of nodes present in multiple organizations and sprea...