The heavily increasing amount of data produced by current experiments in high energy particle physics challenge both end users and providers of computing resources. The boosted data rates and the complexity of analyses require huge datasets being processed in short turnaround cycles. Usually, data storages and computing farms are deployed by different providers, which leads to data delocalization and a strong influence of the interconnection transfer rates. The CMS collaboration at KIT has developed a prototype enabling data locality for HEP analysis processing via two concepts. A coordinated and distributed caching approach that reduce the limiting factor of data transfers by joining local high performance devices with large background sto...
The current experiments in high energy physics (HEP) have a huge data rate. To convert the measured ...
High Energy Physics (HEP) experiments will enter a new era with the start of the HL-LHC program, wit...
Experiments in high-energy physics (HEP) rely on elaborate hardware, software and computing systems ...
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...
Data-intensive end-user analyses in high energy physics require high data throughput to reach short ...
High throughput and short turnaround cycles are core requirements for efficient processing of data-i...
Modern data processing increasingly relies on data locality for performance and scalability, whereas...
[EN] Data analysis workflows in High Energy Physics (HEP) read data written in the ROOT columnar for...
International audienceCaching can effectively reduce the cost of serving content and improve the use...
Observation has lead to a conclusion that the physics analysis jobs run by LHCb physicists on a loca...
Modern High Energy Physics (HEP) requires large-scale processing of extensive amounts of scientific...
At HEP experiments, processing terabytes of structured numerical event data to a few statistical sum...
We describe a novel approach for experimental High-Energy Physics (HEP) data analyses that is centre...
In High Energy Physics (HEP), experimentalists generate large volumes of data that, when analyzed, h...
The current experiments in high energy physics (HEP) have a huge data rate. To convert the measured ...
High Energy Physics (HEP) experiments will enter a new era with the start of the HL-LHC program, wit...
Experiments in high-energy physics (HEP) rely on elaborate hardware, software and computing systems ...
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...
Data-intensive end-user analyses in high energy physics require high data throughput to reach short ...
High throughput and short turnaround cycles are core requirements for efficient processing of data-i...
Modern data processing increasingly relies on data locality for performance and scalability, whereas...
[EN] Data analysis workflows in High Energy Physics (HEP) read data written in the ROOT columnar for...
International audienceCaching can effectively reduce the cost of serving content and improve the use...
Observation has lead to a conclusion that the physics analysis jobs run by LHCb physicists on a loca...
Modern High Energy Physics (HEP) requires large-scale processing of extensive amounts of scientific...
At HEP experiments, processing terabytes of structured numerical event data to a few statistical sum...
We describe a novel approach for experimental High-Energy Physics (HEP) data analyses that is centre...
In High Energy Physics (HEP), experimentalists generate large volumes of data that, when analyzed, h...
The current experiments in high energy physics (HEP) have a huge data rate. To convert the measured ...
High Energy Physics (HEP) experiments will enter a new era with the start of the HL-LHC program, wit...
Experiments in high-energy physics (HEP) rely on elaborate hardware, software and computing systems ...