The GridKa Tier 1 data and computing center hosts a significant share of WLCG processing resources. Providing these resources to all major LHC and other VOs requires efficient, scalable and reliable cluster management. To satisfy this, GridKa has recently migrated its batch resources from CREAM-CE and PBS to ARC-CE and HTCondor. This contribution discusses the key highlights of the adoption of this middleware at the scale of a European Tier 1 center: As the largest WLCG Tier 1 using the ARC-CE plus HTCondor stack, GridKa is exemplary for migrating more than 20 000 cores over the time span of only a few weeks. Supporting multiple VOs, we have extensively studied the constraints and possibilities of scheduling jobs of vastly different require...
Distributed computing resources available for high-energy physics research are becoming less dedicat...
The ATLAS Computing Model was designed around the concept of grid computing; since the start of data...
Within WLCG, the DESY site in Hamburg is one of the largest Tier-2 sites with about 18500 CPU cores ...
The GridKa Tier 1 data and computing center hosts a significant share of WLCG processing resources. ...
After the successful first run of the LHC, data taking is scheduled to restart in Summer 2015 with e...
The WLCG is today comprised of a range of different types of resources such as cloud centers, large ...
The Worldwide LHC Computing Grid (WLCG) is today comprised of a range of different types of resource...
The Worldwide LHC Computing Grid (WLCG) currently has about 170 sites. In order to support WLCG work...
The Worldwide LHC Computing Grid (WLCG) is today comprised of a range of different types of resource...
With the ever-growing amount of data collected with the experiments at the Large Hadron Collider (LH...
LHC experiments require significant computational resources for Monte Carlo simulations and real dat...
The ATLAS Experiment, along with other LHC experiments, requires huge computing capacity to achieve ...
The Nordic Tier-1 centre for LHC is distributed over several computing centres. It uses ARC as the i...
Dynamic resource provisioning in the WLCG is commonly based on meta-scheduling and the pilot model. ...
AthenaMP is the multi-core implementation of the ATLAS software framework and allows the efficient s...
Distributed computing resources available for high-energy physics research are becoming less dedicat...
The ATLAS Computing Model was designed around the concept of grid computing; since the start of data...
Within WLCG, the DESY site in Hamburg is one of the largest Tier-2 sites with about 18500 CPU cores ...
The GridKa Tier 1 data and computing center hosts a significant share of WLCG processing resources. ...
After the successful first run of the LHC, data taking is scheduled to restart in Summer 2015 with e...
The WLCG is today comprised of a range of different types of resources such as cloud centers, large ...
The Worldwide LHC Computing Grid (WLCG) is today comprised of a range of different types of resource...
The Worldwide LHC Computing Grid (WLCG) currently has about 170 sites. In order to support WLCG work...
The Worldwide LHC Computing Grid (WLCG) is today comprised of a range of different types of resource...
With the ever-growing amount of data collected with the experiments at the Large Hadron Collider (LH...
LHC experiments require significant computational resources for Monte Carlo simulations and real dat...
The ATLAS Experiment, along with other LHC experiments, requires huge computing capacity to achieve ...
The Nordic Tier-1 centre for LHC is distributed over several computing centres. It uses ARC as the i...
Dynamic resource provisioning in the WLCG is commonly based on meta-scheduling and the pilot model. ...
AthenaMP is the multi-core implementation of the ATLAS software framework and allows the efficient s...
Distributed computing resources available for high-energy physics research are becoming less dedicat...
The ATLAS Computing Model was designed around the concept of grid computing; since the start of data...
Within WLCG, the DESY site in Hamburg is one of the largest Tier-2 sites with about 18500 CPU cores ...