SAM (Sequential Access through Meta-data) is the data access and job management system for the D0 high energy physics experiment at Fermilab. The SAM system is being developed and used to handle the Petabyte-scale experiment data, accessed by hundreds of D0 collaborators scattered around the world. In this paper, we present solutions to some of the distributed data processing problems from the perspective of real experience dealing with mission-critical data. We concentrate on the distributed disk caching, resource management and job control. The system has elements of the Grid Computing and has features applicable to data-intensive computing in general
The D0 experiment at Fermilab relies on a central Oracle database for storing all detector calibrati...
In this work we describe an approach to data access and data management in High Energy Physics (HEP)...
Over the last few decades, the needs of computational power and data storage by collaborative, distr...
SAM (Sequential Access through Meta-data) is the data access and job management system for the D0 hi...
SAM (Sequential Access through Meta-data) is the data access system for the D0 high energy physics (...
One of the key components of any grid architecture is managing compute and storage resources and opt...
SAM has been developed within the Computing Division at Fermilab as a versatile, distributed, data ...
We report on the production experience of the D0 experiment at the Fermilab Tevatron, using the SAM ...
The computing infrastructures of the modern high energy physics experiments need to address an unpre...
The Sequential Access Model, or SAM, is the data access layer being built for Run II data handling a...
We report on the production experience of the DØ experiment at the Fermilab Tevatron, using the SAM ...
The D0 experiment at Fermilab's Tevatron will record several petabytes of data over the next five ye...
The D0 collaboration uses a variety of resources on four continents to pursue a strategy of flexibil...
SAM was developed as a data handling system for Run II at Fermilab. SAM is a collection of services,...
The LHC program has been successful in part due to the globally distributed computing resources used...
The D0 experiment at Fermilab relies on a central Oracle database for storing all detector calibrati...
In this work we describe an approach to data access and data management in High Energy Physics (HEP)...
Over the last few decades, the needs of computational power and data storage by collaborative, distr...
SAM (Sequential Access through Meta-data) is the data access and job management system for the D0 hi...
SAM (Sequential Access through Meta-data) is the data access system for the D0 high energy physics (...
One of the key components of any grid architecture is managing compute and storage resources and opt...
SAM has been developed within the Computing Division at Fermilab as a versatile, distributed, data ...
We report on the production experience of the D0 experiment at the Fermilab Tevatron, using the SAM ...
The computing infrastructures of the modern high energy physics experiments need to address an unpre...
The Sequential Access Model, or SAM, is the data access layer being built for Run II data handling a...
We report on the production experience of the DØ experiment at the Fermilab Tevatron, using the SAM ...
The D0 experiment at Fermilab's Tevatron will record several petabytes of data over the next five ye...
The D0 collaboration uses a variety of resources on four continents to pursue a strategy of flexibil...
SAM was developed as a data handling system for Run II at Fermilab. SAM is a collection of services,...
The LHC program has been successful in part due to the globally distributed computing resources used...
The D0 experiment at Fermilab relies on a central Oracle database for storing all detector calibrati...
In this work we describe an approach to data access and data management in High Energy Physics (HEP)...
Over the last few decades, the needs of computational power and data storage by collaborative, distr...