Thanks to the Grid, users have access to computing resources distributed all over the world. The Grid hides the complexity and the differences of its heterogeneous components. In such a distributed system, it is clearly very important that errors are detected as soon as possible, and that the procedure to solve them is well established. We focused on two of its main elements: the workload and the data management systems. We developed an application to investigate the efficiency of the different centres. Furthermore, our system can be used to categorize the most common error messages, and control their time evolution
Grid computing removes the limitations that exist in traditional shared computing environment, and b...
The management of Grid systems commonly lacks information for identifying the failures that may hind...
The ability to tolerate failures while effectively exploiting the grid computing resources in an sca...
Thanks to the Grid, users have access to computing resources distributed all over the world. The Gri...
We are offering a system to track the efficiency of different components of the GRID. We can study t...
Abstract — Grid computing is a means of allocating the computational power of a large number of comp...
A major obstacle to Grid usability today is that Grid applications are prone to failures and perform...
Abstract. Grid technology opens the way to build collaborative environments that enable distributed ...
We have to briefly investigate the faulty objects in grid computing environment. The grid computing ...
The emergence of Grid infrastructures like EGEE has enabled the deployment of large-scale computatio...
Grid computing is a largely adopted paradigm to federate geographically distributed data centers. Du...
Dealing with the large amounts of data generated by longrunning parallel applications is one of the ...
Monitoring distributed applications executed on a computational Grid is challenging since they are e...
Desktop grids use the free resources in Intranet and Internet environments for large-scale computati...
Monitoring distributed applications executed on a computational Grid is challenging since they are e...
Grid computing removes the limitations that exist in traditional shared computing environment, and b...
The management of Grid systems commonly lacks information for identifying the failures that may hind...
The ability to tolerate failures while effectively exploiting the grid computing resources in an sca...
Thanks to the Grid, users have access to computing resources distributed all over the world. The Gri...
We are offering a system to track the efficiency of different components of the GRID. We can study t...
Abstract — Grid computing is a means of allocating the computational power of a large number of comp...
A major obstacle to Grid usability today is that Grid applications are prone to failures and perform...
Abstract. Grid technology opens the way to build collaborative environments that enable distributed ...
We have to briefly investigate the faulty objects in grid computing environment. The grid computing ...
The emergence of Grid infrastructures like EGEE has enabled the deployment of large-scale computatio...
Grid computing is a largely adopted paradigm to federate geographically distributed data centers. Du...
Dealing with the large amounts of data generated by longrunning parallel applications is one of the ...
Monitoring distributed applications executed on a computational Grid is challenging since they are e...
Desktop grids use the free resources in Intranet and Internet environments for large-scale computati...
Monitoring distributed applications executed on a computational Grid is challenging since they are e...
Grid computing removes the limitations that exist in traditional shared computing environment, and b...
The management of Grid systems commonly lacks information for identifying the failures that may hind...
The ability to tolerate failures while effectively exploiting the grid computing resources in an sca...