An explanation of tools used for code quality checking in Atlas offline software, including results and responses is given. The principle tools covered are: Coverity, cppcheck, 'include what you use', Undefined Behaviour Sanitize
The level of C++ compliers' adherence to the ISO C++ standard varies considerably from compiler to c...
It is essential to get quick feedback at all stages of the collection and reconstruction of particle...
3 Contact person The SPIDER-CCU (Code Check Utility) project was conducted at CERN by the IT-IPT gro...
In this paper we explain how the C++ code quality is managed in ATLAS using a range of tools from co...
In this paper we explain how the C++ code quality is managed in ATLAS using a range of tools from co...
The regular application of software quality tools in large collaborative projects is required to red...
In this paper we explain how the C++ code quality is managed in ATLAS using a range of tools from co...
The software for the ATLAS experiment on the Large Hadron Collider at CERN has evolved over many yea...
The ATLAS data quality software infrastructure provides tools for prompt investigation of and feedba...
The ATLAS collaboration operates an extensive set of protocols to validate the quality of the offlin...
Recent changes to the ATLAS offline data quality monitoring system are described. These include mult...
International audienceWe update our CHEP06 [2] presentation on the ATLAS experiment software infrast...
The ATLAS Tile Calorimeter (TileCal) is the central part of the hadronic calorimeter of the ATLAS ex...
Every minute of an ATLAS data taking session, the monitoring framework serves several thousands of p...
Every minute the ATLAS detector is taking data, the monitoring framework serves several thousands ph...
The level of C++ compliers' adherence to the ISO C++ standard varies considerably from compiler to c...
It is essential to get quick feedback at all stages of the collection and reconstruction of particle...
3 Contact person The SPIDER-CCU (Code Check Utility) project was conducted at CERN by the IT-IPT gro...
In this paper we explain how the C++ code quality is managed in ATLAS using a range of tools from co...
In this paper we explain how the C++ code quality is managed in ATLAS using a range of tools from co...
The regular application of software quality tools in large collaborative projects is required to red...
In this paper we explain how the C++ code quality is managed in ATLAS using a range of tools from co...
The software for the ATLAS experiment on the Large Hadron Collider at CERN has evolved over many yea...
The ATLAS data quality software infrastructure provides tools for prompt investigation of and feedba...
The ATLAS collaboration operates an extensive set of protocols to validate the quality of the offlin...
Recent changes to the ATLAS offline data quality monitoring system are described. These include mult...
International audienceWe update our CHEP06 [2] presentation on the ATLAS experiment software infrast...
The ATLAS Tile Calorimeter (TileCal) is the central part of the hadronic calorimeter of the ATLAS ex...
Every minute of an ATLAS data taking session, the monitoring framework serves several thousands of p...
Every minute the ATLAS detector is taking data, the monitoring framework serves several thousands ph...
The level of C++ compliers' adherence to the ISO C++ standard varies considerably from compiler to c...
It is essential to get quick feedback at all stages of the collection and reconstruction of particle...
3 Contact person The SPIDER-CCU (Code Check Utility) project was conducted at CERN by the IT-IPT gro...