High throughput and short turnaround cycles are core requirements for efficient processing of data-intense end-user analyses in High Energy Physics (HEP). Together with the tremendously increasing amount of data to be processed, this leads to enormous challenges for HEP storage systems, networks and the data distribution to computing resources for end-user analyses. Bringing data close to the computing resource is a very promising approach to solve throughput limitations and improve the overall performance. However, achieving data locality by placing multiple conventional caches inside a distributed computing infrastructure leads to redundant data placement and inefficient usage of the limited cache volume. The solution is a coordinated pla...
International audienceCaching can effectively reduce the cost of serving content and improve the use...
This contribution describes a prototype grid proxy cache system developed at Nikhef, motivated by a ...
With the evolution of the WLCG towards opportunistic resource usage and cross-site data access, new ...
High throughput and short turnaround cycles are core requirements for efficient processing of data-i...
Data-intensive end-user analyses in high energy physics require high data throughput to reach short ...
The heavily increasing amount of data produced by current experiments in high energy particle physic...
With the second run period of the LHC, high energy physics collaborations will have to face increasi...
To enable data locality, we have developed an approach of adding coordinated caches to existing comp...
Observation has lead to a conclusion that the physics analysis jobs run by LHCb physicists on a loca...
In this work we describe an approach to data access and data management in High Energy Physics (HEP)...
Modern High Energy Physics (HEP) requires large-scale processing of extensive amounts of scientific...
We describe a real implementation of a software component that manages caching of files from a terti...
Current and future end-user analyses and workflows in High Energy Physics demand the processing of g...
The projected Storage and Compute needs for the HL-LHC will be a factor up to 10 above what can be a...
A batch processing job in a distributed system has three clear steps, stage-in, execution, and stage...
International audienceCaching can effectively reduce the cost of serving content and improve the use...
This contribution describes a prototype grid proxy cache system developed at Nikhef, motivated by a ...
With the evolution of the WLCG towards opportunistic resource usage and cross-site data access, new ...
High throughput and short turnaround cycles are core requirements for efficient processing of data-i...
Data-intensive end-user analyses in high energy physics require high data throughput to reach short ...
The heavily increasing amount of data produced by current experiments in high energy particle physic...
With the second run period of the LHC, high energy physics collaborations will have to face increasi...
To enable data locality, we have developed an approach of adding coordinated caches to existing comp...
Observation has lead to a conclusion that the physics analysis jobs run by LHCb physicists on a loca...
In this work we describe an approach to data access and data management in High Energy Physics (HEP)...
Modern High Energy Physics (HEP) requires large-scale processing of extensive amounts of scientific...
We describe a real implementation of a software component that manages caching of files from a terti...
Current and future end-user analyses and workflows in High Energy Physics demand the processing of g...
The projected Storage and Compute needs for the HL-LHC will be a factor up to 10 above what can be a...
A batch processing job in a distributed system has three clear steps, stage-in, execution, and stage...
International audienceCaching can effectively reduce the cost of serving content and improve the use...
This contribution describes a prototype grid proxy cache system developed at Nikhef, motivated by a ...
With the evolution of the WLCG towards opportunistic resource usage and cross-site data access, new ...