The offline trigger monitoring of the ATLAS Experiment is assessing the data quality and analyses those events where no trigger decision could be made. Within the offline monitoring, which is started shorty after the data acquisition has finished, the online data quality assessment is reflected. Additionally, a reprocessing system tests changes to the trigger software and configuration to ensure their stability and reliability before they are . This note explains the activities performed to provide a flawless monitoring of the operation of the ATLAS trigger system and how to assess the quality of the recorded data
The unprecedented size and complexity of the ATLAS experiment required adoption of a new approach fo...
A fast, efficient and comprehensive monitoring system is a vital part of any HEP experiment. This pa...
The ATLAS collaboration operates an extensive set of protocols to validate the quality of the offlin...
The ATLAS data acquisition and trigger system is designed to reduce the LHC bunch crossing rate from...
The ATLAS experiment at the Large Hadron Collider reads out 100 Million electronic channels at a rat...
The first long period of data taking of the Large Hadron Collider was finished after 2 years of data...
The ATLAS data quality software infrastructure provides tools for prompt investigation of and feedba...
The Trigger and Data Acquisition system for the ATLAS experiment has to reduce the 40 MHz of LHC bun...
ATLAS is one of the four experiments in the Large Hadron Collider (LHC) at CERN which has been put i...
Recent changes to the ATLAS offline data quality monitoring system are described. These include mult...
Since the LHC started colliding protons in December 2009, the ATLAS trigger has operated very succes...
With the delivery of the first proton-proton collisions by the LHC, the ATLAS collaboration had the ...
Every minute the ATLAS detector is taking data, the monitoring framework serves several thousands ph...
Event selection in the Atlas High Level Trigger is accomplished to a large extent by reusing softwar...
With the first year of data taking of proton-proton LHC collisions the full chain of the ATLAS Trigg...
The unprecedented size and complexity of the ATLAS experiment required adoption of a new approach fo...
A fast, efficient and comprehensive monitoring system is a vital part of any HEP experiment. This pa...
The ATLAS collaboration operates an extensive set of protocols to validate the quality of the offlin...
The ATLAS data acquisition and trigger system is designed to reduce the LHC bunch crossing rate from...
The ATLAS experiment at the Large Hadron Collider reads out 100 Million electronic channels at a rat...
The first long period of data taking of the Large Hadron Collider was finished after 2 years of data...
The ATLAS data quality software infrastructure provides tools for prompt investigation of and feedba...
The Trigger and Data Acquisition system for the ATLAS experiment has to reduce the 40 MHz of LHC bun...
ATLAS is one of the four experiments in the Large Hadron Collider (LHC) at CERN which has been put i...
Recent changes to the ATLAS offline data quality monitoring system are described. These include mult...
Since the LHC started colliding protons in December 2009, the ATLAS trigger has operated very succes...
With the delivery of the first proton-proton collisions by the LHC, the ATLAS collaboration had the ...
Every minute the ATLAS detector is taking data, the monitoring framework serves several thousands ph...
Event selection in the Atlas High Level Trigger is accomplished to a large extent by reusing softwar...
With the first year of data taking of proton-proton LHC collisions the full chain of the ATLAS Trigg...
The unprecedented size and complexity of the ATLAS experiment required adoption of a new approach fo...
A fast, efficient and comprehensive monitoring system is a vital part of any HEP experiment. This pa...
The ATLAS collaboration operates an extensive set of protocols to validate the quality of the offlin...