Add to ORKGScheduling multi-core workflows in a global HTCondor pool is a multi-dimensional problem whose solution depends on the requirements of the job payloads, the characteristics of available resources, and the boundary conditions such as fair share and prioritization imposed on the job matching to resources. Within the context of a dedicated task force, CMS has increased significantly the scheduling efficiency of workflows in reusable multi-core pilots by various improvements to the limitations of the glideinWMS pilots, accuracy of resource requests, efficiency and speed of the HTCondor infrastructure, and job matching algorithms
The Jiangmen Underground Neutrino Observatory (JUNO) is going to apply parallel computing in its sof...
Fine-grained parallel applications require all their processes to run simultaneously on distinct pro...
In systems consisting of multiple clusters of processors which employ space sharing for scheduling j...
Scheduling multi-core workflows in a global HTCondor pool is a multi-dimensional problem whose solut...
In the next years, processor architectures based on much larger numbers of cores will be most likely...
The successful exploitation of multicore processor architectures is a key element of the LHC distrib...
We develop real-time scheduling techniques for improving performance and energy for multiprogrammed ...
The CMS experiment at the LHC relies on HTCondor and glideinWMS as its primary batch and pilot-based...
The CMS Submission Infrastructure Global Pool, built on GlideinWMS and HTCondor, is a worldwide dist...
Heterogeneous MPSoCs are being used more and more, from cellphones to critical embedded systems. Mos...
International audienceHeterogeneous MPSoCs are being used more and more, from cellphones to critical...
Commodity hardware is going many-core. We might soon not be able to satisfy the job memory needs per...
The advent of multi-core architecture rises many challenges, issues and opportunities. Multicores ha...
Data collected by the Compact Muon Solenoid experiment at the Large Hadron Collider are continuously...
The resource demand on embedded devices is constantly growing. This is caused by the sheer explosion...
The Jiangmen Underground Neutrino Observatory (JUNO) is going to apply parallel computing in its sof...
Fine-grained parallel applications require all their processes to run simultaneously on distinct pro...
In systems consisting of multiple clusters of processors which employ space sharing for scheduling j...
Scheduling multi-core workflows in a global HTCondor pool is a multi-dimensional problem whose solut...
In the next years, processor architectures based on much larger numbers of cores will be most likely...
The successful exploitation of multicore processor architectures is a key element of the LHC distrib...
We develop real-time scheduling techniques for improving performance and energy for multiprogrammed ...
The CMS experiment at the LHC relies on HTCondor and glideinWMS as its primary batch and pilot-based...
The CMS Submission Infrastructure Global Pool, built on GlideinWMS and HTCondor, is a worldwide dist...
Heterogeneous MPSoCs are being used more and more, from cellphones to critical embedded systems. Mos...
International audienceHeterogeneous MPSoCs are being used more and more, from cellphones to critical...
Commodity hardware is going many-core. We might soon not be able to satisfy the job memory needs per...
The advent of multi-core architecture rises many challenges, issues and opportunities. Multicores ha...
Data collected by the Compact Muon Solenoid experiment at the Large Hadron Collider are continuously...
The resource demand on embedded devices is constantly growing. This is caused by the sheer explosion...
The Jiangmen Underground Neutrino Observatory (JUNO) is going to apply parallel computing in its sof...
Fine-grained parallel applications require all their processes to run simultaneously on distinct pro...
In systems consisting of multiple clusters of processors which employ space sharing for scheduling j...