Jefferson Lab has implemented a scalable, distributed, high performance mass storage system - JASMine. The system is entirely implemented in Java, provides access to robotic tape storage and includes disk cache and stage manager components. The disk manager subsystem may be used independently to manage stand-alone disk pools. The system includes a scheduler to provide policy-based access to the storage systems. Security is provided by pluggable authentication modules and is implemented at the network socket level. The tape and disk cache systems have well defined interfaces in order to provide integration with grid-based services. The system is in production and being used to archive 1 TB per day from the experiments, and currently moves ov...
We describe a real implementation of a software component that manages caching of files from a terti...
This paper deals with design issues of a global file system, aiming to provide transparent data avai...
We present a new approach to create large-scale cost-effective mass storage systems using high-capac...
The work is focused on the creation of a replica and file transfers system for Computational Grids i...
The advent of wide-area high-speed networks provides the framework for deploying large scale applica...
This paper presents the architecture of a highly parallelized data replication workflow implemented ...
Typically, large scientific datasets (order of terabytes) are generated at large computational cent...
Advances in robotic devices and storage media now make it possible to design near-line automated sto...
Fermilab provides a multi-Petabyte scale mass storage system for High Energy Physics (HEP) Experimen...
Jefferson Lab produces voluminous amounts of data, currently over 10 MB/sec. We developed a software...
Fermilab provides a multi-Petabyte scale mass storage system for High Energy Physics (HEP) Experimen...
Web services are emerging as an interesting mechanism for a wide range of grid services, particularl...
The University of Chicago and Argonne National Laboratory are building a highly distributed storage ...
In many scientific domains large volumes of data are often generated by experimental devices or simu...
Distributed shared memory (DSM) is an attractive alternative to multiprocessors for parallel process...
We describe a real implementation of a software component that manages caching of files from a terti...
This paper deals with design issues of a global file system, aiming to provide transparent data avai...
We present a new approach to create large-scale cost-effective mass storage systems using high-capac...
The work is focused on the creation of a replica and file transfers system for Computational Grids i...
The advent of wide-area high-speed networks provides the framework for deploying large scale applica...
This paper presents the architecture of a highly parallelized data replication workflow implemented ...
Typically, large scientific datasets (order of terabytes) are generated at large computational cent...
Advances in robotic devices and storage media now make it possible to design near-line automated sto...
Fermilab provides a multi-Petabyte scale mass storage system for High Energy Physics (HEP) Experimen...
Jefferson Lab produces voluminous amounts of data, currently over 10 MB/sec. We developed a software...
Fermilab provides a multi-Petabyte scale mass storage system for High Energy Physics (HEP) Experimen...
Web services are emerging as an interesting mechanism for a wide range of grid services, particularl...
The University of Chicago and Argonne National Laboratory are building a highly distributed storage ...
In many scientific domains large volumes of data are often generated by experimental devices or simu...
Distributed shared memory (DSM) is an attractive alternative to multiprocessors for parallel process...
We describe a real implementation of a software component that manages caching of files from a terti...
This paper deals with design issues of a global file system, aiming to provide transparent data avai...
We present a new approach to create large-scale cost-effective mass storage systems using high-capac...