The inclusion of opportunistic resources, for example from High Performance Computing (HPC) centers or cloud providers, is an important contribution to bridging the gap between existing resources and future needs by the LHC collaborations, especially for the HL-LHC era. However, the integration of these resources poses new challenges and often needs to happen in a highly dynamic manner. To enable an effective and lightweight integration of these resources, the tools COBalD and TARDIS are developed at KIT. In this contribution we report on the infrastructure we use to dynamically offer opportunistic resources to collaborations in the World Wide LHC Computing Grid (WLCG). The core components are COBalD/TARDIS, HTCondor, CVMFS and modern virt...
The computing infrastructure for the LHC data handling (Worldwide LHC Computing Grid- WLCG) was well...
CernVM Co-Pilot is a framework for instantiating an ad-hoc computing infrastructure on top of distri...
High Performance Computing (HPC) supercomputers are expected to play an increasingly important role ...
The inclusion of opportunistic resources, for example from High Performance Computing (HPC) centers ...
The inclusion of opportunistic resources, for example from High Performance Computing (HPC) centers ...
Increased operational effectiveness and the dynamic integration of only temporarily available comput...
To satisfy future computing demands of the Worldwide LHC Computing Grid (WLCG), opportunistic usage ...
Demand for computing resources in high energy physics (HEP) shows a highly dynamic behavior, while t...
With the ever-growing amount of data collected with the experiments at the Large Hadron Collider (LH...
High Performance Computing (HPC) centers are the largest facilities available for science. They are ...
Computing resource needs are expected to increase drastically in the future. The HEP experiments ATL...
The success of the LHC experiments is due to the magnificent performance of the detector systems and...
As results of the excellent LHC performance in 2016, more data than expected has been recorded leadi...
The ATLAS collaboration started a process to understand the computing needs for the High Luminosity ...
LHC experiments require significant computational resources for Monte Carlo simulations and real dat...
The computing infrastructure for the LHC data handling (Worldwide LHC Computing Grid- WLCG) was well...
CernVM Co-Pilot is a framework for instantiating an ad-hoc computing infrastructure on top of distri...
High Performance Computing (HPC) supercomputers are expected to play an increasingly important role ...
The inclusion of opportunistic resources, for example from High Performance Computing (HPC) centers ...
The inclusion of opportunistic resources, for example from High Performance Computing (HPC) centers ...
Increased operational effectiveness and the dynamic integration of only temporarily available comput...
To satisfy future computing demands of the Worldwide LHC Computing Grid (WLCG), opportunistic usage ...
Demand for computing resources in high energy physics (HEP) shows a highly dynamic behavior, while t...
With the ever-growing amount of data collected with the experiments at the Large Hadron Collider (LH...
High Performance Computing (HPC) centers are the largest facilities available for science. They are ...
Computing resource needs are expected to increase drastically in the future. The HEP experiments ATL...
The success of the LHC experiments is due to the magnificent performance of the detector systems and...
As results of the excellent LHC performance in 2016, more data than expected has been recorded leadi...
The ATLAS collaboration started a process to understand the computing needs for the High Luminosity ...
LHC experiments require significant computational resources for Monte Carlo simulations and real dat...
The computing infrastructure for the LHC data handling (Worldwide LHC Computing Grid- WLCG) was well...
CernVM Co-Pilot is a framework for instantiating an ad-hoc computing infrastructure on top of distri...
High Performance Computing (HPC) supercomputers are expected to play an increasingly important role ...