In the next years, processor architectures based on much larger numbers of cores will be most likely the model to continue Moores Law style throughput gains. This not only results in many more jobs in parallel running the LHC Run 1 era monolithic applications. Also the memory requirements of these processes push the workernode architectures to the limit. One solution is parallelizing the application itself, through forking and memory sharing or through threaded frameworks. CMS is following all of these approaches and has a comprehensive strategy to schedule multi-core jobs on the GRID based on the glideIn WMS submission infrastructure. We will present the individual components of the strategy, from special site specific queues used during p...
CMS will require access to more than 125k processor cores for the beginning of Run 2 in 2015 to carr...
The computing systems required to collect, analyse and store the physics data at LHC would need to b...
Chip multicore processors (CMPs) have emerged as the dominant architecture choice for modern comput-...
The successful exploitation of multicore processor architectures is a key element of the LHC distrib...
After the successful first run of the LHC, data taking is scheduled to restart in Summer 2015 with e...
Commodity hardware is going many-core. We might soon not be able to satisfy the job memory needs per...
The first running period of the LHC was a great success. In particular vital for the timely analysis...
Scheduling multi-core workflows in a global HTCondor pool is a multi-dimensional problem whose solut...
CMS has developed a strategy to efficiently exploit the multicore architecture of the compute resour...
Scheduling multi-core workflows in a global HTCondor pool is a multi-dimensional problem whose solut...
CMS is using a tiered setup of dedicated computing resources provided by sites distributed over the ...
The CMS experiment at the LHC relies on HTCondor and glideinWMS as its primary batch and pilot-based...
The distributed Grid computing infrastructure has been instrumental in the successful exploitation o...
The CMS experiment at CERN employs a distributed computing infrastructure to satisfy its data proces...
AthenaMP is the multi-core implementation of the ATLAS software framework and allows the efficient s...
CMS will require access to more than 125k processor cores for the beginning of Run 2 in 2015 to carr...
The computing systems required to collect, analyse and store the physics data at LHC would need to b...
Chip multicore processors (CMPs) have emerged as the dominant architecture choice for modern comput-...
The successful exploitation of multicore processor architectures is a key element of the LHC distrib...
After the successful first run of the LHC, data taking is scheduled to restart in Summer 2015 with e...
Commodity hardware is going many-core. We might soon not be able to satisfy the job memory needs per...
The first running period of the LHC was a great success. In particular vital for the timely analysis...
Scheduling multi-core workflows in a global HTCondor pool is a multi-dimensional problem whose solut...
CMS has developed a strategy to efficiently exploit the multicore architecture of the compute resour...
Scheduling multi-core workflows in a global HTCondor pool is a multi-dimensional problem whose solut...
CMS is using a tiered setup of dedicated computing resources provided by sites distributed over the ...
The CMS experiment at the LHC relies on HTCondor and glideinWMS as its primary batch and pilot-based...
The distributed Grid computing infrastructure has been instrumental in the successful exploitation o...
The CMS experiment at CERN employs a distributed computing infrastructure to satisfy its data proces...
AthenaMP is the multi-core implementation of the ATLAS software framework and allows the efficient s...
CMS will require access to more than 125k processor cores for the beginning of Run 2 in 2015 to carr...
The computing systems required to collect, analyse and store the physics data at LHC would need to b...
Chip multicore processors (CMPs) have emerged as the dominant architecture choice for modern comput-...