Resources in the Grid exhibit different availability properties and patterns over time, mainly due to their admin-istrators ’ policies for the Grid, and the different domains to which they belong, e.g. non-dedicated desktop Grids, on-demand systems, P2P systems etc. This diversification in availability properties makes availability-aware resource selection, for applications with different fault tolerance capabilities, a challenging problem. To address this problem, we introduce new availability metrics for resource availability comparison. We further predict resource availability considering their availability policies. We introduce a new resource availability predictor based on pattern matching through availability pattern recognition and ...
Desktop grids are compute platforms that aggregate and harvest the idle CPU cycles of individually o...
Loosely-coupled distributed systems have significant scale and cost advantages over more traditional...
Fine-Grained Cycle Sharing (FGCS) systems aim at utilizing the large amount of computational resourc...
This work presents a method for predicting resource availability in opportunistic grids by means of ...
This paper has been submitted to the Grid'2007 conference.Currently deployed grids gather together t...
Currently deployed grids gather together thousands of computational and storage resources for the be...
Volunteer-based grid computing resources are characteristically volatile and frequently become unava...
To make the most effective application placement decisions on volatile large-scale heterogeneous Gri...
AbstractEnterprise Grid enables sharing and aggregation of a set of computing or storage resources c...
Abstract: In this paper, the availability of the Resource Management System (RMS) and computational ...
Since the Grid is a dynamic environment, the detection of available resources and prediction of reso...
Fine-grained cycle sharing (FGCS) systems aim at utilizing the large amount of computational resourc...
Abstract The frequent and volatile unavailability of volunteer-based grid computing resources challe...
In large-scale grid environments, accurate failure prediction is critical to achieve effective resou...
GRID environments are privileged targets for computation-intensive problem solving in areas from wea...
Desktop grids are compute platforms that aggregate and harvest the idle CPU cycles of individually o...
Loosely-coupled distributed systems have significant scale and cost advantages over more traditional...
Fine-Grained Cycle Sharing (FGCS) systems aim at utilizing the large amount of computational resourc...
This work presents a method for predicting resource availability in opportunistic grids by means of ...
This paper has been submitted to the Grid'2007 conference.Currently deployed grids gather together t...
Currently deployed grids gather together thousands of computational and storage resources for the be...
Volunteer-based grid computing resources are characteristically volatile and frequently become unava...
To make the most effective application placement decisions on volatile large-scale heterogeneous Gri...
AbstractEnterprise Grid enables sharing and aggregation of a set of computing or storage resources c...
Abstract: In this paper, the availability of the Resource Management System (RMS) and computational ...
Since the Grid is a dynamic environment, the detection of available resources and prediction of reso...
Fine-grained cycle sharing (FGCS) systems aim at utilizing the large amount of computational resourc...
Abstract The frequent and volatile unavailability of volunteer-based grid computing resources challe...
In large-scale grid environments, accurate failure prediction is critical to achieve effective resou...
GRID environments are privileged targets for computation-intensive problem solving in areas from wea...
Desktop grids are compute platforms that aggregate and harvest the idle CPU cycles of individually o...
Loosely-coupled distributed systems have significant scale and cost advantages over more traditional...
Fine-Grained Cycle Sharing (FGCS) systems aim at utilizing the large amount of computational resourc...