Modifications in RED , Jan
----------------------------------- # Pplot list of masked EEMC towers # format: crate channel towerName 1 97 12TC05 3 81 03TD05 4 46 06TD11 4 18 06TA03 4 117 07TC05 # # WARN: any error in format cancels _WHOLE_ list but Pplot runs # ----------------------------------
* ETOW crates identified as OFF (with 2xfff in the header) are visible only in figs B.1 & C.1. Next data from 2xfff cartes are discarded.
* ETOW & ESMD corruptions are histogrammed independently
X=phi bin 0-59, Y=eta bin 1-12, Z incremented if ADC-ped > thr, where adcThrTw=40; adcThrPrs=200; adcThrPost=50; adcThrSmd=100;Black empty circles mark known hot towers |
X=raw ADC 0-1000, 100 bins; Y=fee channel 0-127 ( Laser event is shown) |
One plot for each crate, X=channel 0-127 Channel is incremented if raw ADC> 4*feePed+40 'eemcPed4.dat' file is loaded at the execution time. It can be used to mask out individual channels. Fit of a constant added. (Laser data are shown, some crates were bad) Red triangles mark known hot towers |
X= multiplicity |
EEMC daq displays ADC values recorded in the ESMD data
* ESMD crates identified as OFF (with 2xfff in the header) are visible only in figs B.1 & C. Next data from 2xfff cartes are discarded.
* ETOW & ESMD corruptions are histogrammed independently
PLOTS description: A.1 - Correlation of corruption
B.1 - # of crates OFF /eve , X= # of crates B.2 - N256 per eve, X= # of channels/eve, summed from all crates C - total events given crates is OFF, X= # crates ID [64 - 119] D - ETOW sanity; X= [64 - 119]= crID + bits/10: 0=crID, 1=token,2=len,3=trgCom,4=ErrFlg,5=Ghost,6=n256 |
X= crate ID, Y -tube ID Z incremented if ADC>ped+thr Sectors 12,1,...,5 on the top, 6-11 on the bottom |
4 2D plots for one sector per raw. 3 SMD S-boxes go first, the pre/post P-box is the last.
X=raw ADC 0-1000, 100 bins; Y=fee channel 0-191 ( 6S1 box has some problems) |
The total counts per strip for ADC> ped+50. X=strip ID, range 1-288 Plots order: 1U, 2U 3U, 4U 5U,... |
Number strips with ADC> ped+ther per plane per event X= multiplicity Plots order: 1U, 2U 3U, 4U 5U,... |
EEMC trig displays info recorded in the trigger data.
Laser events are used for all DSM spectra shown here.
All input to DSM level-0. There is 9 boards with 10 channels each.
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HT input to DSM level-0. 6 plots for jet patches #1 - #6
It is the same data as in ' DSM-0 Hanks plot A' , but channels are renamed according to EEMC jet patches ID and trigger patches ID. |
HT input to DSM level-0. 6 plots for jet patches #1 - #6
It is the same data as in ' DSM-0 Hanks plot B' , but channels are renamed according to EEMC jet patches ID and trigger patches ID. |
Comparison of HT output vs. input of DSM level-1 for each 'half-jet' channel separately. The 3 thresholds on HT (set in level-0) should be well visible.
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Comparison of TP output vs. input of DSM level-1 for each half-jet channel separately. If the math in level-0 is correct one should see 1:1 correlation.
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Comparison of real & emulated HT 2-bit values in level-2 and level-3.
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Comparison of real JP 2-bit values in level-2 with emulated 11-bit JP sums based on input to level-1.
6 plots follow Falks JP numbering 0-5. The corresponding Steve's numbering is 3,4,5,6,1,2.
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The 12 jet sub patches (6. or .3 in eta) inputs to DSM1 are summed to give the 6 Jet Patch
sums that the jet patch thresholds are set on.
6 plots follow Steve's numbering scheme, 1-6 with 1 near 12 o'clock and continuing clockwise. These equal the FEE crate number. Falks JP numbering, based on the input order to the DSMs, goes 4,5,0-3. Pedestals should be at channel 45. One ADC channel = 0.24 GeV Etrans.
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Software thresholds (54, 62 and 70) are applied to the emulated jetpatch sums and
the number of times each patch crosses the threshold are plotted. If things are
working well these should be relatively flat across the 6 patches. IN this example
there was a hot trigger patch in JP3. The bins
are labeled by Steve's convention, 1-6. (This corresponds to dsm input order
4,5,0-3). The 1st 4 histos are below threshold, passing thr0, then thr1 and finally
thr2. The last is for pairs of adjacent patches where both patches pass th0. Thus
ch 1=> jp1 and jp2 were both over th0, ch 2=> jp2 and jp3 over th0 etc.
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If two adjacent patches are over th0 their sum is constructed from the emulated patch
sums. Numbering is with Steve's convention.
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The emulated jet patch sum for adjacent pairs of jet patches are plotted.
For central AuAu these fill up. But in pp it is hoped that ghost pedestals
will show up as correlations at high energy in this plot. Numbering of
patches is by Steve's convention.
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