Large scale scientific computing requires the ability to share and consume data and storage in complex ways across multiple systems. However, conventional systems constrain users to the fixed abstractions selected by the local system administrator. The result is that users must either move data manually over the wide area or simply be satisfied with the resources of a single cluster. To remedy this situation, we introduce the concept of a tactical storage system (TSS) that allows users to create, reconfigure, and destroy distributed storage systems without special privileges or complex configuration. We have deployed a prototype TSS of 200 disks and 8 TB of storage at the University of Notre Dame and applied it to several problems in astrop...
Abstract Building a computing cluster using regular PC hardware is an attractive alternative due to...
In this paper, we introduce a system for handling very large datasets, which need to be stored acros...
The LHC program has been successful in part due to the globally distributed computing resources used...
The increasing computation and data requirements of scientific applications have necessitated the us...
Modern science has available to it, and is more productively pursued with, massive amounts of data, ...
Distributed storage systems running on clusters of commodity hardware are challenged by the ever-gro...
Increasingly, scientific advances require the fusion of large amounts of complex data with extraordi...
The average PC now contains a large and increasing amount of storage with an ever greater amount lef...
Extracting knowledge from increasingly large data sets produced, both experimentally and computation...
Large distributed computer systems have been successfully employed to solve modern scientific proble...
Emerging applications such as data warehousing, multimedia content distribution, electronic commerce...
Rapid increase of data volume from the experiments running at the Large Hadron Collider (LHC) prompt...
We present a new approach to create large-scale cost-effective mass storage systems using high-capac...
We are proposing to develop a fault-tolerant distributed computing and database system for use in Hi...
A high capacity Data Storage Unit is key to the store and forward mode of operation for numerous sci...
Abstract Building a computing cluster using regular PC hardware is an attractive alternative due to...
In this paper, we introduce a system for handling very large datasets, which need to be stored acros...
The LHC program has been successful in part due to the globally distributed computing resources used...
The increasing computation and data requirements of scientific applications have necessitated the us...
Modern science has available to it, and is more productively pursued with, massive amounts of data, ...
Distributed storage systems running on clusters of commodity hardware are challenged by the ever-gro...
Increasingly, scientific advances require the fusion of large amounts of complex data with extraordi...
The average PC now contains a large and increasing amount of storage with an ever greater amount lef...
Extracting knowledge from increasingly large data sets produced, both experimentally and computation...
Large distributed computer systems have been successfully employed to solve modern scientific proble...
Emerging applications such as data warehousing, multimedia content distribution, electronic commerce...
Rapid increase of data volume from the experiments running at the Large Hadron Collider (LHC) prompt...
We present a new approach to create large-scale cost-effective mass storage systems using high-capac...
We are proposing to develop a fault-tolerant distributed computing and database system for use in Hi...
A high capacity Data Storage Unit is key to the store and forward mode of operation for numerous sci...
Abstract Building a computing cluster using regular PC hardware is an attractive alternative due to...
In this paper, we introduce a system for handling very large datasets, which need to be stored acros...
The LHC program has been successful in part due to the globally distributed computing resources used...