Improving the robustness of the ATLAS calorimeter software trigger
The ATLAS experiment pushes the leading edge of experimental particle physics. Increasingly complex hardware, however, brings increasingly complex problems which manifest themselves not only in the detector, but also within the software which drives the detector. The magnitude of the expected in...
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2009
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ndltd-uvic.ca-oai-dspace.library.uvic.ca-1828-17932015-01-29T16:50:56Z Improving the robustness of the ATLAS calorimeter software trigger Baker, Mark Alexander Kowalewski, Robert V. ATLAS HLT Trigger Software Robustness MET Missing Transverse Energy HEP UVic Subject Index::Sciences and Engineering::Physics::Nuclear physics The ATLAS experiment pushes the leading edge of experimental particle physics. Increasingly complex hardware, however, brings increasingly complex problems which manifest themselves not only in the detector, but also within the software which drives the detector. The magnitude of the expected interaction rate, too, adds enormous stress to the detector system and the software trigger. In order to prepare the software for these challenges, various detector quantities are considered which may provide debugging handles and robustness against detector problems arising in the ATLAS calorimeter trigger. The effect of electronics noise suppression on these quantities is studied and a brief study of the software trigger performance is followed by recommendations for the implementation of robustness checks. 2009-10-23T22:13:12Z 2009-10-23T22:13:12Z 2009 2009-10-23T22:13:12Z Thesis http://hdl.handle.net/1828/1793 English en Available to the World Wide Web |
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English en |
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NDLTD |
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ATLAS HLT Trigger Software Robustness MET Missing Transverse Energy HEP UVic Subject Index::Sciences and Engineering::Physics::Nuclear physics |
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ATLAS HLT Trigger Software Robustness MET Missing Transverse Energy HEP UVic Subject Index::Sciences and Engineering::Physics::Nuclear physics Baker, Mark Alexander Improving the robustness of the ATLAS calorimeter software trigger |
| description |
The ATLAS experiment pushes the leading edge of experimental particle physics. Increasingly complex hardware, however, brings increasingly complex problems which
manifest themselves not only in the detector, but also within the software which
drives the detector. The magnitude of the expected interaction rate, too, adds enormous stress to the detector system and the software trigger. In order to prepare
the software for these challenges, various detector quantities are considered which
may provide debugging handles and robustness against detector problems arising in
the ATLAS calorimeter trigger. The effect of electronics noise suppression on these
quantities is studied and a brief study of the software trigger performance is followed
by recommendations for the implementation of robustness checks. |
| author2 |
Kowalewski, Robert V. |
| author_facet |
Kowalewski, Robert V. Baker, Mark Alexander |
| author |
Baker, Mark Alexander |
| author_sort |
Baker, Mark Alexander |
| title |
Improving the robustness of the ATLAS calorimeter software trigger |
| title_short |
Improving the robustness of the ATLAS calorimeter software trigger |
| title_full |
Improving the robustness of the ATLAS calorimeter software trigger |
| title_fullStr |
Improving the robustness of the ATLAS calorimeter software trigger |
| title_full_unstemmed |
Improving the robustness of the ATLAS calorimeter software trigger |
| title_sort |
improving the robustness of the atlas calorimeter software trigger |
| publishDate |
2009 |
| url |
http://hdl.handle.net/1828/1793 |
| work_keys_str_mv |
AT bakermarkalexander improvingtherobustnessoftheatlascalorimetersoftwaretrigger |
| _version_ |
1716729010791120896 |