Desktop grids are compute platforms that aggregate and harvest the idle CPU cycles of individually owned personal computers and workstations. A challenge for using these platforms is that the compute resources are volatile. Due to this volatility the vast majority of desktop grid applications are embarrassingly parallel and high-throughput. Deeper understanding of the nature of resource availability is needed to enable the use of desktop grids for a broader class of applications. In this document we further this understanding thanks to statistical analysis of availability traces collected on real-world desktop grid platforms
Resources in the Grid exhibit different availability properties and patterns over time, mainly due t...
An Enterprise Desktop Grid (EDG) is a low cost platform that gathers desktop computers spread over d...
Context. When dealing with large data sets and heavy calculations the common solution is clusters, s...
Desktop resources are attractive for running compute-intensive distributed applications. Several sy...
Desktop grids, which use the idle cycles of many desktop PC's, are currently the largest distributed...
Desktop grid computing has emerged from the concept of providing relatively large amounts of computi...
Currently deployed grids gather together thousands of computational and storage resources for the be...
This paper has been submitted to the Grid'2007 conference.Currently deployed grids gather together t...
Abstract: In this paper, the availability of the Resource Management System (RMS) and computational ...
Desktop grids are popular platforms for high throughput applications, but due their inherent resourc...
Desktop grids are popular platforms for high through-put applications, but due their inherent resour...
In large-scale grid environments, accurate failure prediction is critical to achieve effective resou...
Volunteer-based grid computing resources are characteristically volatile and frequently become unava...
Failure is inevitable in scientific computing. As scientific applications and facilities increase th...
Desktop grids use opportunistic sharing to exploit large collections of personal computers and works...
Resources in the Grid exhibit different availability properties and patterns over time, mainly due t...
An Enterprise Desktop Grid (EDG) is a low cost platform that gathers desktop computers spread over d...
Context. When dealing with large data sets and heavy calculations the common solution is clusters, s...
Desktop resources are attractive for running compute-intensive distributed applications. Several sy...
Desktop grids, which use the idle cycles of many desktop PC's, are currently the largest distributed...
Desktop grid computing has emerged from the concept of providing relatively large amounts of computi...
Currently deployed grids gather together thousands of computational and storage resources for the be...
This paper has been submitted to the Grid'2007 conference.Currently deployed grids gather together t...
Abstract: In this paper, the availability of the Resource Management System (RMS) and computational ...
Desktop grids are popular platforms for high throughput applications, but due their inherent resourc...
Desktop grids are popular platforms for high through-put applications, but due their inherent resour...
In large-scale grid environments, accurate failure prediction is critical to achieve effective resou...
Volunteer-based grid computing resources are characteristically volatile and frequently become unava...
Failure is inevitable in scientific computing. As scientific applications and facilities increase th...
Desktop grids use opportunistic sharing to exploit large collections of personal computers and works...
Resources in the Grid exhibit different availability properties and patterns over time, mainly due t...
An Enterprise Desktop Grid (EDG) is a low cost platform that gathers desktop computers spread over d...
Context. When dealing with large data sets and heavy calculations the common solution is clusters, s...