Difference: HLTCaloPublicResults (1 vs. 7)

Revision 72018-07-02 - JoergStelzer

Line: 1 to 1
 
META TOPICPARENT name="TriggerPublicResults"
AtlasPublicTopicHeader.png
Line: 30 to 30
  change is seen around April 10 arising from the updates to the L1 timing constants.
Changed:
<
<
effperrun.gif
gif eps
>
>
effperrun.gif
gif eps
 
Line: 44 to 44
  900 GeV and 7 TeV data taking periods. In addition, the rate for one run taken during cosmic ray data taking is given.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 60 to 60
  nearby energy deposits. This is due to the larger region in space of L1 clusters compared to offline ones.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 76 to 76
  nearby energy deposits. This is due to the larger region in space of L1 clusters compared to offline ones.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 89 to 89
 L1Calo timing correction. It also shows that the plateau value now reaches 100%.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 101 to 101
  in time ~20%. For example EM2 means EM clusters found above 2 counts or at least 3 counts (1 count ~1 GeV)
Changed:
<
<

gif
>
>

gif
 

Line: 166 to 166
 
L2 e/gamma clusters transverse energy distribution
ATLAS trigger electromagnetic clusters transverse energy distribution for 7 TeV collisions (668ub-1). Online monitoring plot showing the effect of cosmic ray events in addition to collision events. By selecting collisions only events, based on beam presence, the overall shape has a fair agreement with simulated data.
Changed:
<
<

eps
>
>

eps
 

EF e/gamma clusters eta distribution
ATLAS trigger electromagnetic clusters eta coordinate for 7 TeV collisions (668ub-1). Beam presence is used to select real collision events. Important discrepancy verified in the services gap region (eta=1.5) are expected due to lack of information input to the hardware based first trigger level. This information will be introduced to the hardware trigger after more detailed collision data based calibrations can be performed.
Changed:
<
<

eps
>
>

eps
 
Line: 185 to 185
  with 7 TeV collisions (~400 mub-1 of stable beam data) is shown together with their Monte-Carlo predictions.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 202 to 202
  distribution to slightly lower values in data mainly arises from cross-talk.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 217 to 217
  arises from small differences in the clustering algorithms which results in slightly different cluster positions.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 230 to 230
  distribution to slightly lower values which hints at missing material in the MC.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 241 to 241
  calculated in the 1st EM layer found by L2 and EF w.r.t. the offline for L2 and EF clusters matched to offline electron candidates.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 253 to 253
  good agreement between data and MC observed with a slightly sharper distribution around zero for observed in data.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 267 to 267
  the offline. The re-calculation in the offline is only a start-up feature.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 279 to 279
  passes the 32 GeV threshold. L2 cluster: ET = 34.4 GeV, eta = -0.42, phi = 0.31; L2 track: pT = 24.9 GeV
Changed:
<
<

png
>
>

png
 
Line: 292 to 292
  electrons from conversions found in the MC is shown separately. A reasonable agreement between data and MC is found
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 306 to 306
  electrons from conversions found in the MC is shown separately. A reasonable agreement between data and MC is found
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 321 to 321
  mainly due to L2 tracking algorithm, which is less sophisticated than the offline one due to the timing constraints in the online.
Changed:
<
<

gif eps
>
>

gif eps
 
Line: 331 to 331
  Processing time per event for the L2 tracking algorithm. These measurements are taken in the online farm.
Changed:
<
<

gif eps
>
>

gif eps
 


Line: 407 to 407
 
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-03.pdf" attr="h" comment="" date="1490861599" name="ATL-COM-DAQ-2016-044-03.pdf" path="ATL-COM-DAQ-2016-044-03.pdf" size="154252" user="damazio" version="1"
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-03.eps" attr="h" comment="" date="1490861600" name="ATL-COM-DAQ-2016-044-03.eps" path="ATL-COM-DAQ-2016-044-03.eps" size="2876669" user="damazio" version="1"
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-03.gif" attr="h" comment="" date="1490861600" name="ATL-COM-DAQ-2016-044-03.gif" path="ATL-COM-DAQ-2016-044-03.gif" size="37157" user="damazio" version="1"
Added:
>
>
META FILEATTACHMENT attachment="effperrun.eps" attr="" comment="" date="1530546098" name="effperrun.eps" path="effperrun.eps" size="14792" user="stelzer" version="1"
META FILEATTACHMENT attachment="effperrun.gif" attr="" comment="" date="1530546098" name="effperrun.gif" path="effperrun.gif" size="10528" user="stelzer" version="1"
META FILEATTACHMENT attachment="EM3ComTriggerRawEff.eps" attr="" comment="" date="1530546098" name="EM3ComTriggerRawEff.eps" path="EM3ComTriggerRawEff.eps" size="12377" user="stelzer" version="1"
META FILEATTACHMENT attachment="EM3ComTriggerRawEff.gif" attr="" comment="" date="1530546098" name="EM3ComTriggerRawEff.gif" path="EM3ComTriggerRawEff.gif" size="24426" user="stelzer" version="1"
META FILEATTACHMENT attachment="L1CaloEM5TurnOnRaw.eps" attr="" comment="" date="1530546098" name="L1CaloEM5TurnOnRaw.eps" path="L1CaloEM5TurnOnRaw.eps" size="10578" user="stelzer" version="1"
META FILEATTACHMENT attachment="L1CaloEM5TurnOnRaw.gif" attr="" comment="" date="1530546098" name="L1CaloEM5TurnOnRaw.gif" path="L1CaloEM5TurnOnRaw.gif" size="25982" user="stelzer" version="1"
META FILEATTACHMENT attachment="L1CaloEMTurnOnRaw.eps" attr="" comment="" date="1530546098" name="L1CaloEMTurnOnRaw.eps" path="L1CaloEMTurnOnRaw.eps" size="15679" user="stelzer" version="1"
META FILEATTACHMENT attachment="L1CaloEMTurnOnRaw.gif" attr="" comment="" date="1530546098" name="L1CaloEMTurnOnRaw.gif" path="L1CaloEMTurnOnRaw.gif" size="38270" user="stelzer" version="1"
META FILEATTACHMENT attachment="L1EMRateVsThreshold.eps" attr="" comment="" date="1530546098" name="L1EMRateVsThreshold.eps" path="L1EMRateVsThreshold.eps" size="15596" user="stelzer" version="1"
META FILEATTACHMENT attachment="L1EMRateVsThreshold.gif" attr="" comment="" date="1530546098" name="L1EMRateVsThreshold.gif" path="L1EMRateVsThreshold.gif" size="32497" user="stelzer" version="1"
META FILEATTACHMENT attachment="L1rates.gif" attr="" comment="" date="1530546714" name="L1rates.gif" path="L1rates.gif" size="9151" user="stelzer" version="1"
META FILEATTACHMENT attachment="eratio_resolution_electron.eps" attr="" comment="" date="1530547219" name="eratio_resolution_electron.eps" path="eratio_resolution_electron.eps" size="43635" user="stelzer" version="1"
META FILEATTACHMENT attachment="eratio_resolution_electron.gif" attr="" comment="" date="1530547219" name="eratio_resolution_electron.gif" path="eratio_resolution_electron.gif" size="16046" user="stelzer" version="1"
META FILEATTACHMENT attachment="eratioef_datamc_online.eps" attr="" comment="" date="1530547219" name="eratioef_datamc_online.eps" path="eratioef_datamc_online.eps" size="13031" user="stelzer" version="1"
META FILEATTACHMENT attachment="eratioef_datamc_online.gif" attr="" comment="" date="1530547219" name="eratioef_datamc_online.gif" path="eratioef_datamc_online.gif" size="10669" user="stelzer" version="1"
META FILEATTACHMENT attachment="Et_1D_new.eps" attr="" comment="" date="1530547219" name="Et_1D_new.eps" path="Et_1D_new.eps" size="19445" user="stelzer" version="1"
META FILEATTACHMENT attachment="Et_1D_new.gif" attr="" comment="" date="1530547219" name="Et_1D_new.gif" path="Et_1D_new.gif" size="8543" user="stelzer" version="1"
META FILEATTACHMENT attachment="et_comp_online_5.eps" attr="" comment="" date="1530547241" name="et_comp_online_5.eps" path="et_comp_online_5.eps" size="20800" user="stelzer" version="1"
META FILEATTACHMENT attachment="et_comp_online_5.gif" attr="" comment="" date="1530547241" name="et_comp_online_5.gif" path="et_comp_online_5.gif" size="15985" user="stelzer" version="1"
META FILEATTACHMENT attachment="ethadl2_datamc_electron.eps" attr="" comment="" date="1530547241" name="ethadl2_datamc_electron.eps" path="ethadl2_datamc_electron.eps" size="15088" user="stelzer" version="1"
META FILEATTACHMENT attachment="ethadl2_datamc_electron.gif" attr="" comment="" date="1530547241" name="ethadl2_datamc_electron.gif" path="ethadl2_datamc_electron.gif" size="11722" user="stelzer" version="1"
META FILEATTACHMENT attachment="rcore_resolution_electron.eps" attr="" comment="" date="1530547241" name="rcore_resolution_electron.eps" path="rcore_resolution_electron.eps" size="38711" user="stelzer" version="1"
META FILEATTACHMENT attachment="rcore_resolution_electron.gif" attr="" comment="" date="1530547241" name="rcore_resolution_electron.gif" path="rcore_resolution_electron.gif" size="17604" user="stelzer" version="1"
META FILEATTACHMENT attachment="rcoreef_datamc_electron.eps" attr="" comment="" date="1530547241" name="rcoreef_datamc_electron.eps" path="rcoreef_datamc_electron.eps" size="14464" user="stelzer" version="1"
META FILEATTACHMENT attachment="rcoreef_datamc_electron.gif" attr="" comment="" date="1530547241" name="rcoreef_datamc_electron.gif" path="rcoreef_datamc_electron.gif" size="11062" user="stelzer" version="1"
META FILEATTACHMENT attachment="dEtaEF.eps" attr="" comment="" date="1530547454" name="dEtaEF.eps" path="dEtaEF.eps" size="12456" user="stelzer" version="1"
META FILEATTACHMENT attachment="dEtaEF.gif" attr="" comment="" date="1530547454" name="dEtaEF.gif" path="dEtaEF.gif" size="11892" user="stelzer" version="1"
META FILEATTACHMENT attachment="dEtaL2.eps" attr="" comment="" date="1530547454" name="dEtaL2.eps" path="dEtaL2.eps" size="13677" user="stelzer" version="1"
META FILEATTACHMENT attachment="dEtaL2.gif" attr="" comment="" date="1530547454" name="dEtaL2.gif" path="dEtaL2.gif" size="11749" user="stelzer" version="1"
META FILEATTACHMENT attachment="idscan.eps" attr="" comment="" date="1530547454" name="idscan.eps" path="idscan.eps" size="11551" user="stelzer" version="1"
META FILEATTACHMENT attachment="idscan.gif" attr="" comment="" date="1530547454" name="idscan.gif" path="idscan.gif" size="11064" user="stelzer" version="1"
META FILEATTACHMENT attachment="JiveXML_152409_5966801-YX-RZ-LegoPlot-EventInfo-2010-04-22-11-07-36.png" attr="" comment="" date="1530547454" name="JiveXML_152409_5966801-YX-RZ-LegoPlot-EventInfo-2010-04-22-11-07-36.png" path="JiveXML_152409_5966801-YX-RZ-LegoPlot-EventInfo-2010-04-22-11-07-36.png" size="937690" user="stelzer" version="1"
META FILEATTACHMENT attachment="resEta.eps" attr="" comment="" date="1530547454" name="resEta.eps" path="resEta.eps" size="18499" user="stelzer" version="1"
META FILEATTACHMENT attachment="resEta.gif" attr="" comment="" date="1530547454" name="resEta.gif" path="resEta.gif" size="16370" user="stelzer" version="1"

Revision 62017-03-30 - DenisDamazio

Line: 1 to 1
 
META TOPICPARENT name="TriggerPublicResults"
AtlasPublicTopicHeader.png
Line: 123 to 123
 with respect to offline topo-clusters in 2016 is due to the introduction cell-level, BCID/<> based energy corrections. These corrections account for pedestal changes that arise due to out-of-time pile-up and particularly affect the first bunch crossings in each bunch train. Similar corrections were already being applied offline.
Changed:
<
<

pdf eps gif
>
>

pdf eps gif
 
Line: 136 to 136
 with respect to offline topo-clusters in 2016 is due to the introduction cell-level, BCID/<> based energy corrections. These corrections account for pedestal changes that arise due to out-of-time pile-up and particularly affect the first bunch crossings in each bunch train. Similar corrections were already being applied offline.
Changed:
<
<

pdf eps gif
>
>

pdf eps gif
 
Line: 149 to 149
 crossings in each bunch train. The improvement in the ET resolution for online topo-clusters with respect to offline topo-clusters in 2016 is due to the introduction cell-level, BCID/<> based energy corrections. These corrections account for pedestal changes that arise due to out-of-time pile-up and particularly affect the first bunch crossings in each bunch train. Similar corrections were already being applied offline.
Changed:
<
<

pdf eps gif
>
>

pdf eps gif
 
Line: 398 to 398
 
META FILEATTACHMENT attachment="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.pdf" attr="h" comment="Calo topo clustering on GPU performance" date="1447345576" name="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.pdf" path="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.pdf" size="14961" user="tbold" version="1"
META FILEATTACHMENT attachment="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.png" attr="h" comment="Calo topo clustering on GPU performance" date="1447345576" name="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.png" path="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.png" size="20926" user="tbold" version="1"
META FILEATTACHMENT attachment="L1J50_numberOFClusters_MC12_14TeV_mu40_6000ev.pdf" attr="h" comment="Calo topo clustering on GPU performance" date="1447345576" name="L1J50_numberOFClusters_MC12_14TeV_mu40_6000ev.pdf" path="L1J50_numberOFClusters_MC12_14TeV_mu40_6000ev.pdf" size="15059" user="tbold" version="1"
Added:
>
>
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-01.pdf" attr="h" comment="" date="1490860676" name="ATL-COM-DAQ-2016-044-01.pdf" path="ATL-COM-DAQ-2016-044-01.pdf" size="140181" user="damazio" version="1"
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-01.eps" attr="h" comment="" date="1490860676" name="ATL-COM-DAQ-2016-044-01.eps" path="ATL-COM-DAQ-2016-044-01.eps" size="3050226" user="damazio" version="1"
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-01.gif" attr="h" comment="" date="1490860676" name="ATL-COM-DAQ-2016-044-01.gif" path="ATL-COM-DAQ-2016-044-01.gif" size="31178" user="damazio" version="1"
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-02.pdf" attr="h" comment="" date="1490861281" name="ATL-COM-DAQ-2016-044-02.pdf" path="ATL-COM-DAQ-2016-044-02.pdf" size="139221" user="damazio" version="1"
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-02.eps" attr="h" comment="" date="1490861282" name="ATL-COM-DAQ-2016-044-02.eps" path="ATL-COM-DAQ-2016-044-02.eps" size="3050226" user="damazio" version="1"
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-02.gif" attr="h" comment="" date="1490861282" name="ATL-COM-DAQ-2016-044-02.gif" path="ATL-COM-DAQ-2016-044-02.gif" size="30736" user="damazio" version="1"
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-03.pdf" attr="h" comment="" date="1490861599" name="ATL-COM-DAQ-2016-044-03.pdf" path="ATL-COM-DAQ-2016-044-03.pdf" size="154252" user="damazio" version="1"
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-03.eps" attr="h" comment="" date="1490861600" name="ATL-COM-DAQ-2016-044-03.eps" path="ATL-COM-DAQ-2016-044-03.eps" size="2876669" user="damazio" version="1"
META FILEATTACHMENT attachment="ATL-COM-DAQ-2016-044-03.gif" attr="h" comment="" date="1490861600" name="ATL-COM-DAQ-2016-044-03.gif" path="ATL-COM-DAQ-2016-044-03.gif" size="37157" user="damazio" version="1"

Revision 52017-03-03 - JoergStelzer

Line: 1 to 1
 
META TOPICPARENT name="TriggerPublicResults"
AtlasPublicTopicHeader.png
Line: 111 to 111
 

HLT Calo performance

Added:
>
>

HLT Calorimeter Reconstruction Performance in 2016 ATL-COM-DAQ-2016-044

The ET resolution for online (HLT) topo-clusters with respect to offline topo-clusters with ET > 3 GeV. The online and offline clusters are both hadronically calibrated. Both the 2015 data and 2016 data are comprised of bunch trains containing 72 filled bunches. No explicit BCID-based event selection has been applied and so all bunch crossings (BCs) are represented. The improvement in the ET resolution for online topo-clusters with respect to offline topo-clusters in 2016 is due to the introduction cell-level, BCID/<> based energy corrections. These corrections account for pedestal changes that arise due to out-of-time pile-up and particularly affect the first bunch crossings in each bunch train. Similar corrections were already being applied offline.
pdf eps gif
The ET resolution for online (HLT) topo-clusters with respect to offline topo-clusters with ET > 3 GeV. The online and offline clusters are both hadronically calibrated. Both the 2015 data and 2016 data are comprised of bunch trains containing 72 filled bunches. Only the events corresponding to the first 12 bunch crossings (BCs) in each bunch train are considered here. The improvement in the ET resolution for online topoclusters with respect to offline topo-clusters in 2016 is due to the introduction cell-level, BCID/<> based energy corrections. These corrections account for pedestal changes that arise due to out-of-time pile-up and particularly affect the first bunch crossings in each bunch train. Similar corrections were already being applied offline.
pdf eps gif
The ET resolution for online (HLT) topo-clusters with respect to offline topo-clusters with ET > 3 GeV. The online and offline clusters are both hadronically calibrated. Both the 2015 data and 2016 data are comprised of bunch trains containing 72 filled bunches. The solid lines show the ET resolution for all events, whereas the dotted lines show the ET resolution for the sub-set of events that correspond to the first 12 bunch crossings in each bunch train. The improvement in the ET resolution for online topo-clusters with respect to offline topo-clusters in 2016 is due to the introduction cell-level, BCID/<> based energy corrections. These corrections account for pedestal changes that arise due to out-of-time pile-up and particularly affect the first bunch crossings in each bunch train. Similar corrections were already being applied offline.
pdf eps gif
 

Revision 42016-04-20 - FrankWinklmeier

Line: 1 to 1
 
META TOPICPARENT name="TriggerPublicResults"
AtlasPublicTopicHeader.png
Line: 14 to 14
 suggestions. Follow the guidelines on the trigger public results page.
Deleted:
<
<

2010 data @ TeV

 
Changed:
<
<

L1 EM calorimeter performance

>
>

L1 EM calorimeter performance

 
Line: 110 to 109
 
Changed:
<
<

HLT Calo performance

>
>

HLT Calo performance

 

Revision 32015-11-12 - TomaszBold

Line: 1 to 1
 
META TOPICPARENT name="TriggerPublicResults"
AtlasPublicTopicHeader.png
Line: 289 to 289
 eps
Added:
>
>


Number of calorimeter clusters reconstructed using the standard CPU cell clustering algorithms and the same logical algorithm ported to GPU. The blue line represents the CPU standard CaloTopoClusterMaker algorithm. The red dashed line represents the GPU cell clustering based on a Cellular Automaton algorithm. In both cases the clusters are then sent to the CPU cluster splitting and follow the same reconstruction sequence. The results presented were obtained after the complete Trigger Clustering execution. The data sample used consist of QCD di-jet events with leading-jet transverse momentum above 20 GeV and a fixed number of 40 simultaneous interactions per bunch-crossing.


png pdf

Transverse energy of the calorimeter clusters reconstructed using the standard CPU cell clustering algorithms and the same logical algorithm ported to GPU. The blue line represents the CPU standard CaloTopoClusterMaker algorithm. The red dashed line represents the GPU cell clustering based on a Cellular Automaton algorithm. In both cases the clusters are then sent to the CPU cluster splitting and follow the same reconstruction sequence. The results presented were obtained after the complete Trigger Clustering execution. The data sample used consist of QCD di-jet events with leading-jet transverse momentum above 20 GeV and a fixed number of 40 simultaneous interactions per bunch-crossing.


png pdf

Number of jets reconstructed from clusters created using the standard CPU cell clustering algorithms and the same logical algorithm ported to GPU. The blue line represents the CPU standard CaloTopoClusterMaker algorithm. The red dashed line represents the GPU cell clustering based on a Cellular Automaton algorithm. In both cases the clusters are then sent to the CPU cluster splitting and follow the same reconstruction sequence. The results presented were obtained after the complete jet chain execution. The data sample used consist of QCD di-jet events with leading-jet transverse momentum above 20 GeV and a fixed number of 40 simultaneous interactions per bunch-crossing.


png pdf
 
Line: 300 to 344
 Subject: public

\ No newline at end of file

Added:
>
>
META FILEATTACHMENT attachment="L1J50_numberOFJets_MC12_14TeV_mu40_6000ev.png" attr="h" comment="Calo topo clustering on GPU performance" date="1447345576" name="L1J50_numberOFJets_MC12_14TeV_mu40_6000ev.png" path="L1J50_numberOFJets_MC12_14TeV_mu40_6000ev.png" size="22862" user="tbold" version="1"
META FILEATTACHMENT attachment="L1J50_numberOFClusters_MC12_14TeV_mu40_6000ev.png" attr="h" comment="Calo topo clustering on GPU performance" date="1447345576" name="L1J50_numberOFClusters_MC12_14TeV_mu40_6000ev.png" path="L1J50_numberOFClusters_MC12_14TeV_mu40_6000ev.png" size="23315" user="tbold" version="1"
META FILEATTACHMENT attachment="L1J50_numberOFJets_MC12_14TeV_mu40_6000ev.pdf" attr="h" comment="Calo topo clustering on GPU performance" date="1447345576" name="L1J50_numberOFJets_MC12_14TeV_mu40_6000ev.pdf" path="L1J50_numberOFJets_MC12_14TeV_mu40_6000ev.pdf" size="15008" user="tbold" version="1"
META FILEATTACHMENT attachment="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.pdf" attr="h" comment="Calo topo clustering on GPU performance" date="1447345576" name="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.pdf" path="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.pdf" size="14961" user="tbold" version="1"
META FILEATTACHMENT attachment="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.png" attr="h" comment="Calo topo clustering on GPU performance" date="1447345576" name="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.png" path="L1J50_clustersEt_MC12_14TeV_mu40_6000ev.png" size="20926" user="tbold" version="1"
META FILEATTACHMENT attachment="L1J50_numberOFClusters_MC12_14TeV_mu40_6000ev.pdf" attr="h" comment="Calo topo clustering on GPU performance" date="1447345576" name="L1J50_numberOFClusters_MC12_14TeV_mu40_6000ev.pdf" path="L1J50_numberOFClusters_MC12_14TeV_mu40_6000ev.pdf" size="15059" user="tbold" version="1"

Revision 22013-10-20 - DenisDamazio

Line: 1 to 1
 
META TOPICPARENT name="TriggerPublicResults"
AtlasPublicTopicHeader.png
Changed:
<
<

HLT Calorimater Public Results

>
>

HLT Calorimeter Public Results

 

Revision 12011-06-13 - JoergStelzer

Line: 1 to 1
Added:
>
>
META TOPICPARENT name="TriggerPublicResults"
AtlasPublicTopicHeader.png

HLT Calorimater Public Results

Introduction

Approved plots that can be shown by ATLAS speakers at conferences and similar events. Please do not add figures on your own. Contact the responsible project leader in case of questions and/or suggestions. Follow the guidelines on the trigger public results page.

2010 data @ TeV

L1 EM calorimeter performance

Fraction of events in which the L1 EM trigger found within the data selected by the minimum bias scintillators (MBTS) as a function of the date of data taking with stable beam collisions is shown. Stable L1 operation is achieved within 10%. This plots shows all the good collision runs taken between March 31 and April 18, 2010. A clear change is seen around April 10 arising from the updates to the L1 timing constants. effperrun.gif
gif eps
L1 EM trigger rate as a function of the threshold for cosmic and collision candidates. The rates are averaged over the run period and normalised to correspond to one pair of colliding bunches are shown for all events passing the EM3 trigger for collision events from the 900 GeV and 7 TeV data taking periods. In addition, the rate for one run taken during cosmic ray data taking is given.
gif eps
L1 efficiency for the trigger selecting EM clusters above 2, 3 or 5 counts (1 count is ~1 GeV) as a function of the raw (uncalibrated) offline cluster ET. The turn-on is shown for data (markers) and MC simulation (lines). The turn-on in data is happening at slightly lower ET values compared to MC and the shape is well modeled. The L1 selected events at low ET values arise from offline clusters with nearby energy deposits. This is due to the larger region in space of L1 clusters compared to offline ones.
gif eps
L1 efficiency for the trigger selecting EM clusters above 5 counts (1 count is ~1 GeV) as a function of the raw (uncalibrated) offline cluster ET. The turn-on is shown for data (markers) and MC simulation (lines). The turn-on in data is happening at slightly lower ET values compared to MC and the shape is well modelled. The L1 selected events at low ET values arise from offline clusters with nearby energy deposits. This is due to the larger region in space of L1 clusters compared to offline ones.
gif eps
L1 efficiency for the trigger selecting EM clusters above 3 counts ( ~3 GeV) as a function of the raw (uncalibrated) offline cluster ET. This plot shows nicely she sharpening of the turn-on after the L1Calo timing correction. It also shows that the plateau value now reaches 100%.
gif eps
L1 Rates normalised to L=1027cm-2s-1. The errors shown are statistical only. The error on the luminosity is at this point in time ~20%. For example EM2 means EM clusters found above 2 counts or at least 3 counts (1 count ~1 GeV)
gif

HLT Calo performance

L2 e/gamma clusters transverse energy distribution
ATLAS trigger electromagnetic clusters transverse energy distribution for 7 TeV collisions (668ub-1). Online monitoring plot showing the effect of cosmic ray events in addition to collision events. By selecting collisions only events, based on beam presence, the overall shape has a fair agreement with simulated data.

eps
EF e/gamma clusters eta distribution
ATLAS trigger electromagnetic clusters eta coordinate for 7 TeV collisions (668ub-1). Beam presence is used to select real collision events. Important discrepancy verified in the services gap region (eta=1.5) are expected due to lack of information input to the hardware based first trigger level. This information will be introduced to the hardware trigger after more detailed collision data based calibrations can be performed.

eps


ET spectrum for data collected in 2009 with 900 GeV collisions (~9 mub-1 of stable beam data) and data collected up to April 17 in 2010 with 7 TeV collisions (~400 mub-1 of stable beam data) is shown together with their Monte-Carlo predictions.

gif eps

Comparison of the distributions of the shower shape Reta calculated at EF for data and simulation for EF clusters matched to an offline electron candidate. Reta calculated by the ratio of the energy deposit in 3x7 cells (corresponding to 0.075 x 0.175 in eta x phi) over 7x7 cells in the second EM layer. Note, the value of Reta can have values above one as cell energies can be negative due to the electronic shaping function used in LAr. The shift in the distribution to slightly lower values in data mainly arises from cross-talk.

gif eps

Difference in Reta between values found by the HLT and offline reconstruction for L2/EF clusters matched to offline electron candidates. Reta calculated by the ratio of the energy deposit in 3x7 cells (corresponding to 0.075 x 0.175 in eta x phi) over 7x7 cells in the second EM layer. The broader distribution found at L2 arises from small differences in the clustering algorithms which results in slightly different cluster positions.

gif eps

Distribution of shower shape in 1st EM layer Eratio=(E1max-E2max)/ (E1max+E2max) at EF for data and MC for EF clusters matched to offline electron candidates. The data shows a shift in the distribution to slightly lower values which hints at missing material in the MC.

gif eps

Difference between the variable Eratio=(E1max-E2max)/ (E1max+E2max) calculated in the 1st EM layer found by L2 and EF w.r.t. the offline for L2 and EF clusters matched to offline electron candidates.

gif eps

Distribution of the hadronic leakage ET(had) / ET(EM) at L2 for data and MC for L2 clusters matched to offline electron candidates. A good agreement between data and MC observed with a slightly sharper distribution around zero for observed in data.

gif eps

Difference in ET between the values found by the EF and the offline reconstruction for EF clusters matched to offline electron candidates. Note the trigger uses the DSP cell energies as input whereas the offline recalculates optimal filtering coefficients in the offline. The re-calculation in the offline is only a start-up feature.

gif eps

Event display shows the L2 quantities in the X-Y and R-z plan. The 3d plot shows the L1 tower information. In this event the L1 ET passes the 32 GeV threshold. L2 cluster: ET = 34.4 GeV, eta = -0.42, phi = 0.31; L2 track: pT = 24.9 GeV

png

Comparison of the eta difference between the track extrapolated into the first EM layer and the barycentre of the cell energies in this layer calculated at L2 for data and simulation for trigger objects matched to offline electron candidates. The contribution of electrons from conversions found in the MC is shown separately. A reasonable agreement between data and MC is found

gif eps

Comparison of the eta difference between the track extrapolated into the first EM layer and the barycentre of the cell energies in this layer calculated at EF for data and simulation for trigger objects matched to offline electron candidates. The contribution of electrons from conversions found in the MC is shown separately. A reasonable agreement between data and MC is found

gif eps

Difference between the cluster and track eta positions found by the HLT and the offline. The distributions are shown for L2 and EF separately for L2 and EF objects matched to offline electron candidates. A very good agreement is found between EF and offline quantities,. The agreement is less good between L2 and offline mainly due to L2 tracking algorithm, which is less sophisticated than the offline one due to the timing constraints in the online.

gif eps

Processing time per event for the L2 tracking algorithm. These measurements are taken in the online farm.

gif eps


Major updates:
-- JoergStelzer - 13-Jun-2011

Responsible: JoergStelzer
Subject: public

 
This site is powered by the TWiki collaboration platform Powered by PerlCopyright & 2008-2019 by the contributing authors. All material on this collaboration platform is the property of the contributing authors.
Ideas, requests, problems regarding TWiki? Send feedback