cms annual review 2003 pact - the rpc muon trigger bari-helsinki-laapperanta-warsaw
DESCRIPTION
CMS Annual Review 2003 PACT - the RPC Muon Trigger Bari-Helsinki-Laapperanta-Warsaw. Jan Królikowski Warsaw University. PACT tasks. PACT ESR. The Electronics System Review of the PACT Muon Trigger was held on July, 8th, 2003 in Warsaw. - PowerPoint PPT PresentationTRANSCRIPT
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CMS Annual Review 2003PACT - the RPC Muon TriggerBari-Helsinki-Laapperanta-WarsawJan KrlikowskiWarsaw University
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PACT tasks
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PACT ESRThe Electronics System Review of the PACT Muon Trigger was held on July, 8th, 2003 in Warsaw.The extensive documentation prepared for this review can be found at :http://hep.fuw.edu.pl/cms/esr/. This documentation reflects the present status of the project.
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OutlinePACT layoutProgress since 2002 / Open issuesLink systemCounting room electronicsCost, schedule and milestones
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Coverage of initial system4 stations up to ~ 1.24 ; 3 up to ~1.6
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PACT electronics: layout and main components
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PACT inventory
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Progress since 2002UXC55 electronics:progress in the Link System prototypes and design. Now entering preparation of production phase.Firming up of the LB boxes installation plans.UCS55 electronics: progress in PAC algorithms and FPGA implementation of 4/6 plane algorithms,VHDL codes for many compnents (sorters, GhostBusters) developed and tested,New Sorter Crate architechtureOverall organization of the projectNew division of tasks between Bari/ Laapperanta/ Warsaw
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UXC55 electronicsProgress in the Link systemLink Board + Control Board + Optical Link: prototypes succesfully tested in the LHC-like beam in May 2003Monitoring of the RPC performance and test pulses succesfully tested as well. Powerful diagnostic tools installed on the LBSetting up of the RPC FEB parameters via I2C still to be tested.Radiation tests of FPGAs and FLASH memoriesReloading of FPGAs on the LB every 4-10 minutes is sufficientIntegration and installation issuses: constant progress
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LB functionalities
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LB RE1/1 prototype 2003
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Tested functionalities of Link SystemSynchronization of signals from chambers Histogram of signals in synchronization window Histogram of all signals from chambersHistogram bx history Snapshots Test pulses TTCrx signals distribution LB FPGAs loading from CB CCU and VME interfaces
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Tested functionalities of Link SystemSynchronization of signals from chambers Histogram of signals in synchronization window Histogram of all signals from chambersHistogram bx history Snapshots Test pulses TTCrx signals distribution LB FPGAs loading from CB CCU and VME interfaces
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Test Pulses Sharpness of the Synchronization Window The sharpness of the synchronization window edge is ~0.3 ns (one channel)Test pulsewidow closewidow openTest pulse directly connected to input channel with short (~5cm) cableSynchronization window
Wykres3
100
99
15
0.02
0
"window open" position [ns]
window / all [%]
Arkusz1
offsetoffsetv[mm/ns]
7.88.15181.8181818182
channel
channela[104ps]position a [ns]position - offset[ns]position - offset[ns]b[104ps]b-apath lenght [mm]path lenght [ns]l - p [ns]13
0%
1929.5681.7681.418940.208203.91.12145-0.29655676.968100
2899.2561.4561.106930.416191.21.0516-0.0544687.07299
3889.1521.3521.002920.416158.20.8701-0.1319697.17615
4868.9441.1440.794890.312160.60.88330.0893707.280.02
5868.9441.1440.794890.312135.70.74635-0.04765717.3840
6868.9441.1440.794900.416139.30.76615-0.02785
7879.0481.2480.898910.416149.70.82335-0.07465
8929.5681.7681.418940.208231.41.2727-0.1453
9858.841.040.69890.416153.30.843150.15315
10858.841.040.69880.312128.20.70510.0151
11868.9441.1440.794900.416142.80.7854-0.0086
12858.841.040.69880.3121280.7040.014
13868.9441.1440.794900.416139.50.76725-0.02675
14909.361.561.21930.312164.90.90695-0.30305
15868.9441.1440.794910.521400.77-0.024
16868.9441.1440.794900.416145.50.800250.00625
17838.6320.8320.482860.312134.80.74140.2594
18848.7360.9360.586880.4161310.72050.1345
19848.7360.9360.586870.312107.40.59070.0047
20838.6320.8320.482850.2081050.57750.0955
21909.361.561.21930.312204.61.1253-0.0847
22828.5280.7280.378850.31295.20.52360.1456
23828.5280.7280.378850.31293.50.514250.13625
24828.5280.7280.378850.31290.50.497750.11975
25828.5280.7280.378850.31284.10.462550.08455
26828.5280.7280.378850.31286.20.47410.0961
27848.7360.9360.586860.20891.30.50215-0.08385
28848.7360.9360.586880.41680.90.44495-0.14105
29858.841.040.69890.416100.40.5522-0.1378
30848.7360.9360.586870.312106.40.5852-0.0008
31868.9441.1440.794890.312120.20.6611-0.1329
32838.6320.8320.482860.312114.60.63030.1483
33848.7360.9360.586870.31298.40.5412-0.0448
34828.5280.7280.378850.312710.39050.0125
35879.0481.2480.898910.416143.90.79145-0.10655
36848.7360.9360.586870.312112.10.616550.03055
37828.5280.7280.378850.31291.70.504350.12635
38828.5280.7280.378850.31291.70.504350.12635
39828.5280.7280.378850.312830.45650.0785
40838.6320.8320.482860.312860.473-0.009
41828.5280.7280.378850.31281.40.44770.0697
42848.7360.9360.586870.31290.30.49665-0.08935
43838.6320.8320.482860.31274.20.4081-0.0739
44828.5280.7280.378850.31276.70.421850.04385
45848.7360.9360.586860.20871.70.39435-0.19165
46828.5280.7280.378860.41679.70.438350.06035
47828.5280.7280.378850.31267.90.37345-0.00455
48848.7360.9360.586870.31274.20.4081-0.1779
49848.7360.9360.586860.20878.50.43175-0.15425
50838.6320.8320.482860.31259.60.3278-0.1542
51889.1521.3521.002920.416133.20.7326-0.2694
52848.7360.9360.586870.31278.80.4334-0.1526
53838.6320.8320.482860.31269.90.38445-0.09755
54848.7360.9360.586870.31288.50.48675-0.09925
55848.7360.9360.586870.31271.70.39435-0.19165
56868.9441.1440.794890.3121320.726-0.068
57818.4240.6240.274840.31251.30.282150.00815
58828.5280.7280.378850.31280.50.442750.06475
59818.4240.6240.274840.31261.40.33770.0637
60838.6320.8320.482850.208570.3135-0.1685
61848.7360.9360.586870.31265.40.3597-0.2263
62848.7360.9360.586860.20852.10.28655-0.29945
63848.7360.9360.586870.31265.40.3597-0.2263
Polaczenia pomiedzy kanalem 45 a wyjsciami impulsow testowych
a[104ps]position a [ns]position - offset[ns]position - offset[ns]b[104ps]b-a
0838.632860.312
1707.28730.312
2727.488760.416
3767.904790.312
4676.968700.312
5767.904790.312
6767.904790.312
7757.8780.312
8737.592760.312
9788.112800.208
109810.1921000.208
11899.256920.312
12788.112810.312
13687.072710.312
14596.136620.312
15606.24630.312
16586.032610.312
Arkusz1
0
0
0
0
0
0
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0
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Chanel
Track length
Track length ( chanel number)
Arkusz2
0
0
0
0
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0
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0
0
Chanel number
Delay []
Delay ( chanell number)
Arkusz3
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
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00
00
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00
00
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00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
Path lenght
Test puls position
channels
[ns]
channels
0
0
0
0
0
"window open" position [ns]
window/all [%]
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
[ns]
Path lenght - puls position
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
b-a
b-a
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
channels
[ns]
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
b-a
-
Test PulsesInput Channels SkewOne test pulse directly connected to each input channelFound the source of the problem: big skew between input channels (~1ns)Reason: differences in paths lengths on the PCB After fixing the paths lengths the skew should be reduced to ~0.4ns
Wykres5
0
1.7681.12145
1.4561.0516
1.3520.8701
1.1440.8833
1.1440.74635
1.1440.76615
1.2480.82335
1.7681.2727
1.040.84315
1.040.7051
1.1440.7854
1.040.704
1.1440.76725
1.560.90695
1.1440.77
1.1440.80025
0.8320.7414
0.9360.7205
0.9360.5907
0.8320.5775
1.561.1253
0.7280.5236
0.7280.51425
0.7280.49775
0.7280.46255
0.7280.4741
0.9360.50215
0.9360.44495
1.040.5522
0.9360.5852
1.1440.6611
0.8320.6303
0.9360.5412
0.7280.3905
1.2480.79145
0.9360.61655
0.7280.50435
0.7280.50435
0.7280.4565
0.8320.473
0.7280.4477
0.9360.49665
0.8320.4081
0.7280.42185
0.9360.39435
0.7280.43835
0.7280.37345
0.9360.4081
0.9360.43175
0.8320.3278
1.3520.7326
0.9360.4334
0.8320.38445
0.9360.48675
0.9360.39435
1.1440.726
0.6240.28215
0.7280.44275
0.6240.3377
0.8320.3135
0.9360.3597
0.9360.28655
0.9360.3597
Relative test puls position
Path lenght
channels
[ns]
Arkusz1
offsetoffsetv[mm/ns]
7.88.15181.8181818182
channel
channela[104ps]position a [ns]position - offset[ns]position - offset[ns]b[104ps]b-apath lenght [mm]path lenght [ns]l - p [ns]13
0%
1929.5681.7681.418940.208203.91.12145-0.29655676.968100
2899.2561.4561.106930.416191.21.0516-0.0544687.07299
3889.1521.3521.002920.416158.20.8701-0.1319697.17615
4868.9441.1440.794890.312160.60.88330.0893707.280.02
5868.9441.1440.794890.312135.70.74635-0.04765717.3840
6868.9441.1440.794900.416139.30.76615-0.02785
7879.0481.2480.898910.416149.70.82335-0.07465
8929.5681.7681.418940.208231.41.2727-0.1453
9858.841.040.69890.416153.30.843150.15315
10858.841.040.69880.312128.20.70510.0151
11868.9441.1440.794900.416142.80.7854-0.0086
12858.841.040.69880.3121280.7040.014
13868.9441.1440.794900.416139.50.76725-0.02675
14909.361.561.21930.312164.90.90695-0.30305
15868.9441.1440.794910.521400.77-0.024
16868.9441.1440.794900.416145.50.800250.00625
17838.6320.8320.482860.312134.80.74140.2594
18848.7360.9360.586880.4161310.72050.1345
19848.7360.9360.586870.312107.40.59070.0047
20838.6320.8320.482850.2081050.57750.0955
21909.361.561.21930.312204.61.1253-0.0847
22828.5280.7280.378850.31295.20.52360.1456
23828.5280.7280.378850.31293.50.514250.13625
24828.5280.7280.378850.31290.50.497750.11975
25828.5280.7280.378850.31284.10.462550.08455
26828.5280.7280.378850.31286.20.47410.0961
27848.7360.9360.586860.20891.30.50215-0.08385
28848.7360.9360.586880.41680.90.44495-0.14105
29858.841.040.69890.416100.40.5522-0.1378
30848.7360.9360.586870.312106.40.5852-0.0008
31868.9441.1440.794890.312120.20.6611-0.1329
32838.6320.8320.482860.312114.60.63030.1483
33848.7360.9360.586870.31298.40.5412-0.0448
34828.5280.7280.378850.312710.39050.0125
35879.0481.2480.898910.416143.90.79145-0.10655
36848.7360.9360.586870.312112.10.616550.03055
37828.5280.7280.378850.31291.70.504350.12635
38828.5280.7280.378850.31291.70.504350.12635
39828.5280.7280.378850.312830.45650.0785
40838.6320.8320.482860.312860.473-0.009
41828.5280.7280.378850.31281.40.44770.0697
42848.7360.9360.586870.31290.30.49665-0.08935
43838.6320.8320.482860.31274.20.4081-0.0739
44828.5280.7280.378850.31276.70.421850.04385
45848.7360.9360.586860.20871.70.39435-0.19165
46828.5280.7280.378860.41679.70.438350.06035
47828.5280.7280.378850.31267.90.37345-0.00455
48848.7360.9360.586870.31274.20.4081-0.1779
49848.7360.9360.586860.20878.50.43175-0.15425
50838.6320.8320.482860.31259.60.3278-0.1542
51889.1521.3521.002920.416133.20.7326-0.2694
52848.7360.9360.586870.31278.80.4334-0.1526
53838.6320.8320.482860.31269.90.38445-0.09755
54848.7360.9360.586870.31288.50.48675-0.09925
55848.7360.9360.586870.31271.70.39435-0.19165
56868.9441.1440.794890.3121320.726-0.068
57818.4240.6240.274840.31251.30.282150.00815
58828.5280.7280.378850.31280.50.442750.06475
59818.4240.6240.274840.31261.40.33770.0637
60838.6320.8320.482850.208570.3135-0.1685
61848.7360.9360.586870.31265.40.3597-0.2263
62848.7360.9360.586860.20852.10.28655-0.29945
63848.7360.9360.586870.31265.40.3597-0.2263
Polaczenia pomiedzy kanalem 45 a wyjsciami impulsow testowych
a[104ps]position a [ns]position - offset[ns]position - offset[ns]b[104ps]b-a
0838.632860.312
1707.28730.312
2727.488760.416
3767.904790.312
4676.968700.312
5767.904790.312
6767.904790.312
7757.8780.312
8737.592760.312
9788.112800.208
109810.1921000.208
11899.256920.312
12788.112810.312
13687.072710.312
14596.136620.312
15606.24630.312
16586.032610.312
Arkusz1
0
0
0
0
0
0
0
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0
Chanel
Track length
Track length ( chanel number)
Arkusz2
0
0
0
0
0
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0
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0
0
Chanel number
Delay []
Delay ( chanell number)
Arkusz3
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
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0
0
0
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0
0
0
0
0
0
0
"window open" position [ns]
window/all [%]
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
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0
0
0
0
0
0
0
0
[ns]
Path lenght - puls position
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
0
0
0
0
0
0
0
0
0
0
b-a
b-a
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
channels
[ns]
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
b-a
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
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00
00
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00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
Relative test puls position
Path lenght
channels
[ns]
-
Beam testsHistogramsThe muon beam profile The bx history histogram - train of 48 bxs with muons
-
Beam testsWindow Size and Position ScansRatio of chamber noise signals in synchronization window to all measured. The beam bunch time shape scanned with 1ns window
-
Beam testsSnapshotsBxChannelRB1RB2
-
Beam testsSnapshots, Clusters Size Distribution
Wykres13
0
2627
558
240
39
40
10
28
28
10
10
11
6
6
7
7
7
5
7
11
11
13
8
10
3
12
0
0
0
0
0
0
RB3_12 9400V, noiseaverage clusters size 2.1
Arkusz1
snap_l1_lb2_103_6_1_5_32_23_His
LB2 in spill
RPC1: clusCount 3979 clusSize 3.5868309
012345678910111213141516171819202122232425262728293031
036343025272118536494868281012214862313101728513000000
RPC2: clusCount 3607 clusSize 2.5443578
066970019431484120124453245593432440120000100
snap_l1_lb2_103_6_1_5_32_23_His
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
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0
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0
RB3_12 9400V, muons,average clusters size 3.6
snap_rpc1_lb2_103_6_1_6_3_27_Hi
0
0
0
0
0
0
0
0
0
0
0
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0
RB3_34 9400V, muons, average clusters size 2.5
snap_rpc2_lb2_103_6_1_6_9_28_Hi
LB2 out spill
RPC1: clusCount 3714 clusSize 2.091007
012345678910111213141516171819202122232425262728293031
0262755824039401028281010116677757111113810312000000
RPC2 clusCount 283 clusSize 0.18739903
0170493311120220100311010023010000000
corelations
snap_rpc2_lb2_103_6_1_6_9_28_Hi
0
0
0
0
0
0
0
0
0
0
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RB3_12 9400V, noiseaverage clusters size 2.1
snap_rpc1_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 171 clusSize 2.1754386
012345678910111213141516171819202122232425262728293031
011027174212300001001002100000000000
RPC2: clusCount 4055 clusSize 2.459186
024765155771544231223020181414103376215784115340000000
snap_rpc1_lb2_9200v_103_6_2_11_
0
0
0
0
0
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RB3_34 9400V, noise,average clusters size 2.5
snap_rpc2_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 9587 clusSize 1.9108168
012345678910111213141516171819202122232425262728293031
06674140965111421940125118492430142118101168127952011000000
RPC1: clusCount 668 clusSize 2.040419
040011111016602522231100220001020000000
snap_rpc2_lb2_9200v_103_6_2_11_
0
0
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RB3_12 9200V, noise,average clusters size 1.9
LB2 out spill
RPC1: clusCount 402 clusSize 2.0497513
012345678910111213141516171819202122232425262728293031
0254694210534350001201001000002000000
RPC1: clusCount 10415 clusSize 2.1174269
069301165138329613646584725352226154422664212911173590000000
0
0
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RB3_34 9200V, noise,average clusters size 2.1
Wykres14
0
6674
1409
651
114
219
40
125
118
49
24
30
14
21
18
10
11
6
8
12
7
9
5
2
0
11
0
0
0
0
0
0
RB3_12 9200V, noise,average clusters size 1.9
Arkusz1
snap_l1_lb2_103_6_1_5_32_23_His
LB2 in spill
RPC1: clusCount 3979 clusSize 3.5868309
012345678910111213141516171819202122232425262728293031
036343025272118536494868281012214862313101728513000000
RPC2: clusCount 3607 clusSize 2.5443578
066970019431484120124453245593432440120000100
snap_l1_lb2_103_6_1_5_32_23_His
0
0
0
0
0
0
0
0
0
0
0
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0
RB3_12 9400V, muons,average clusters size 3.6
snap_rpc1_lb2_103_6_1_6_3_27_Hi
0
0
0
0
0
0
0
0
0
0
0
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0
RB3_34 9400V, muons, average clusters size 2.5
snap_rpc2_lb2_103_6_1_6_9_28_Hi
LB2 out spill
RPC1: clusCount 3714 clusSize 2.091007
012345678910111213141516171819202122232425262728293031
0262755824039401028281010116677757111113810312000000
RPC2 clusCount 283 clusSize 0.18739903
0170493311120220100311010023010000000
corelations
snap_rpc2_lb2_103_6_1_6_9_28_Hi
0
0
0
0
0
0
0
0
0
0
0
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0
0
0
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0
RB3_12 9400V, noiseaverage clusters size 2.1
snap_rpc1_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 171 clusSize 2.1754386
012345678910111213141516171819202122232425262728293031
011027174212300001001002100000000000
RPC2: clusCount 4055 clusSize 2.459186
024765155771544231223020181414103376215784115340000000
snap_rpc1_lb2_9200v_103_6_2_11_
0
0
0
0
0
0
0
0
0
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0
RB3_34 9400V, noise,average clusters size 2.5
snap_rpc2_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 9587 clusSize 1.9108168
012345678910111213141516171819202122232425262728293031
06674140965111421940125118492430142118101168127952011000000
RPC1: clusCount 668 clusSize 2.040419
040011111016602522231100220001020000000
snap_rpc2_lb2_9200v_103_6_2_11_
0
0
0
0
0
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0
RB3_12 9200V, noise,average clusters size 1.9
LB2 out spill
RPC1: clusCount 402 clusSize 2.0497513
012345678910111213141516171819202122232425262728293031
0254694210534350001201001000002000000
RPC1: clusCount 10415 clusSize 2.1174269
069301165138329613646584725352226154422664212911173590000000
0
0
0
0
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RB3_34 9200V, noise,average clusters size 2.1
Wykres15
0
2476
515
577
154
42
31
22
30
20
18
14
14
10
33
7
6
2
15
7
8
4
11
5
34
0
0
0
0
0
0
0
RB3_34 9400V, noise,average clusters size 2.5
Arkusz1
snap_l1_lb2_103_6_1_5_32_23_His
LB2 in spill
RPC1: clusCount 3979 clusSize 3.5868309
012345678910111213141516171819202122232425262728293031
036343025272118536494868281012214862313101728513000000
RPC2: clusCount 3607 clusSize 2.5443578
066970019431484120124453245593432440120000100
snap_l1_lb2_103_6_1_5_32_23_His
0
0
0
0
0
0
0
0
0
0
0
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0
0
0
RB3_12 9400V, muons,average clusters size 3.6
snap_rpc1_lb2_103_6_1_6_3_27_Hi
0
0
0
0
0
0
0
0
0
0
0
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0
RB3_34 9400V, muons, average clusters size 2.5
snap_rpc2_lb2_103_6_1_6_9_28_Hi
LB2 out spill
RPC1: clusCount 3714 clusSize 2.091007
012345678910111213141516171819202122232425262728293031
0262755824039401028281010116677757111113810312000000
RPC2 clusCount 283 clusSize 0.18739903
0170493311120220100311010023010000000
corelations
snap_rpc2_lb2_103_6_1_6_9_28_Hi
0
0
0
0
0
0
0
0
0
0
0
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0
0
0
0
0
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0
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0
RB3_12 9400V, noiseaverage clusters size 2.1
snap_rpc1_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 171 clusSize 2.1754386
012345678910111213141516171819202122232425262728293031
011027174212300001001002100000000000
RPC2: clusCount 4055 clusSize 2.459186
024765155771544231223020181414103376215784115340000000
snap_rpc1_lb2_9200v_103_6_2_11_
0
0
0
0
0
0
0
0
0
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RB3_34 9400V, noise,average clusters size 2.5
snap_rpc2_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 9587 clusSize 1.9108168
012345678910111213141516171819202122232425262728293031
06674140965111421940125118492430142118101168127952011000000
RPC1: clusCount 668 clusSize 2.040419
040011111016602522231100220001020000000
snap_rpc2_lb2_9200v_103_6_2_11_
0
0
0
0
0
0
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0
RB3_12 9200V, noise,average clusters size 1.9
LB2 out spill
RPC1: clusCount 402 clusSize 2.0497513
012345678910111213141516171819202122232425262728293031
0254694210534350001201001000002000000
RPC1: clusCount 10415 clusSize 2.1174269
069301165138329613646584725352226154422664212911173590000000
0
0
0
0
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0
RB3_34 9200V, noise,average clusters size 2.1
Wykres16
0
6930
1165
1383
296
136
46
58
47
25
35
22
26
15
44
22
6
6
42
12
9
11
17
3
59
0
0
0
0
0
0
0
RB3_34 9200V, noise,average clusters size 2.1
Arkusz1
snap_l1_lb2_103_6_1_5_32_23_His
LB2 in spill
RPC1: clusCount 3979 clusSize 3.5868309
012345678910111213141516171819202122232425262728293031
036343025272118536494868281012214862313101728513000000
RPC2: clusCount 3607 clusSize 2.5443578
066970019431484120124453245593432440120000100
snap_l1_lb2_103_6_1_5_32_23_His
0
0
0
0
0
0
0
0
0
0
0
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0
RB3_12 9400V, muons,average clusters size 3.6
snap_rpc1_lb2_103_6_1_6_3_27_Hi
0
0
0
0
0
0
0
0
0
0
0
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0
RB3_34 9400V, muons, average clusters size 2.5
snap_rpc2_lb2_103_6_1_6_9_28_Hi
LB2 out spill
RPC1: clusCount 3714 clusSize 2.091007
012345678910111213141516171819202122232425262728293031
0262755824039401028281010116677757111113810312000000
RPC2 clusCount 283 clusSize 0.18739903
0170493311120220100311010023010000000
corelations
snap_rpc2_lb2_103_6_1_6_9_28_Hi
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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0
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0
RB3_12 9400V, noiseaverage clusters size 2.1
snap_rpc1_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 171 clusSize 2.1754386
012345678910111213141516171819202122232425262728293031
011027174212300001001002100000000000
RPC2: clusCount 4055 clusSize 2.459186
024765155771544231223020181414103376215784115340000000
snap_rpc1_lb2_9200v_103_6_2_11_
0
0
0
0
0
0
0
0
0
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0
RB3_34 9400V, noise,average clusters size 2.5
snap_rpc2_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 9587 clusSize 1.9108168
012345678910111213141516171819202122232425262728293031
06674140965111421940125118492430142118101168127952011000000
RPC1: clusCount 668 clusSize 2.040419
040011111016602522231100220001020000000
snap_rpc2_lb2_9200v_103_6_2_11_
0
0
0
0
0
0
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0
RB3_12 9200V, noise,average clusters size 1.9
LB2 out spill
RPC1: clusCount 402 clusSize 2.0497513
012345678910111213141516171819202122232425262728293031
0254694210534350001201001000002000000
RPC1: clusCount 10415 clusSize 2.1174269
069301165138329613646584725352226154422664212911173590000000
0
0
0
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0
RB3_34 9200V, noise,average clusters size 2.1
Wykres1
0
363
430
2527
211
85
36
49
48
68
28
10
12
21
4
8
6
2
3
13
10
17
2
8
5
13
0
0
0
0
0
0
RB3_12 9400V, muons,average clusters size 3.6
Arkusz1
snap_l1_lb2_103_6_1_5_32_23_His
LB2 in spill
RPC1: clusCount 3979 clusSize 3.5868309
012345678910111213141516171819202122232425262728293031
036343025272118536494868281012214862313101728513000000
RPC2: clusCount 3607 clusSize 2.5443578
066970019431484120124453245593432440120000100
snap_l1_lb2_103_6_1_5_32_23_His
0
0
0
0
0
0
0
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RB3_12 9400V, muons,average clusters size 3.6
snap_rpc1_lb2_103_6_1_6_3_27_Hi
0
0
0
0
0
0
0
0
0
0
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RB3_34 9400V, muons, average clusters size 2.5
snap_rpc2_lb2_103_6_1_6_9_28_Hi
LB2 out spill
RPC1: clusCount 3714 clusSize 2.091007
012345678910111213141516171819202122232425262728293031
0262755824039401028281010116677757111113810312000000
RPC2 clusCount 283 clusSize 0.18739903
0170493311120220100311010023010000000
corelations
snap_rpc2_lb2_103_6_1_6_9_28_Hi
0
0
0
0
0
0
0
0
0
0
0
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0
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0
RB3_12 9400V, noiseaverage clusters size 2.1
snap_rpc1_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 171 clusSize 2.1754386
012345678910111213141516171819202122232425262728293031
011027174212300001001002100000000000
RPC2: clusCount 4055 clusSize 2.459186
024765155771544231223020181414103376215784115340000000
snap_rpc1_lb2_9200v_103_6_2_11_
0
0
0
0
0
0
0
0
0
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RB3_34 9400V, noise,average clusters size 2.5
snap_rpc2_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 9587 clusSize 1.9108168
012345678910111213141516171819202122232425262728293031
06674140965111421940125118492430142118101168127952011000000
RPC1: clusCount 668 clusSize 2.040419
040011111016602522231100220001020000000
snap_rpc2_lb2_9200v_103_6_2_11_
0
0
0
0
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RB3_12 9200V, noise,average clusters size 1.9
LB2 out spill
RPC1: clusCount 402 clusSize 2.0497513
012345678910111213141516171819202122232425262728293031
0254694210534350001201001000002000000
RPC1: clusCount 10415 clusSize 2.1174269
069301165138329613646584725352226154422664212911173590000000
0
0
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RB3_34 9200V, noise,average clusters size 2.1
Wykres3
0
669
700
1943
148
41
20
12
4
4
5
3
2
4
5
5
9
3
4
3
2
4
4
0
12
0
0
0
0
1
0
0
RB3_34 9400V, muons, average clusters size 2.5
Arkusz1
snap_l1_lb2_103_6_1_5_32_23_His
LB2 in spill
RPC1: clusCount 3979 clusSize 3.5868309
012345678910111213141516171819202122232425262728293031
036343025272118536494868281012214862313101728513000000
RPC2: clusCount 3607 clusSize 2.5443578
066970019431484120124453245593432440120000100
snap_l1_lb2_103_6_1_5_32_23_His
0
0
0
0
0
0
0
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0
RB3_12 9400V, muons,average clusters size 3.6
snap_rpc1_lb2_103_6_1_6_3_27_Hi
0
0
0
0
0
0
0
0
0
0
0
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0
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0
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0
RB3_34 9400V, muons, average clusters size 2.5
snap_rpc2_lb2_103_6_1_6_9_28_Hi
LB2 out spill
RPC1: clusCount 3714 clusSize 2.091007
012345678910111213141516171819202122232425262728293031
0262755824039401028281010116677757111113810312000000
RPC2 clusCount 283 clusSize 0.18739903
0170493311120220100311010023010000000
corelations
snap_rpc2_lb2_103_6_1_6_9_28_Hi
0
0
0
0
0
0
0
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0
RB3_12 9400V, noiseaverage clusters size 2.1
snap_rpc1_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 171 clusSize 2.1754386
012345678910111213141516171819202122232425262728293031
011027174212300001001002100000000000
RPC2: clusCount 4055 clusSize 2.459186
024765155771544231223020181414103376215784115340000000
snap_rpc1_lb2_9200v_103_6_2_11_
0
0
0
0
0
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0
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RB3_34 9400V, noise,average clusters size 2.5
snap_rpc2_lb2_9200v_103_6_2_11_
LB2 out spill
RPC1: clusCount 9587 clusSize 1.9108168
012345678910111213141516171819202122232425262728293031
06674140965111421940125118492430142118101168127952011000000
RPC1: clusCount 668 clusSize 2.040419
040011111016602522231100220001020000000
snap_rpc2_lb2_9200v_103_6_2_11_
0
0
0
0
0
0
0
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0
RB3_12 9200V, noise,average clusters size 1.9
LB2 out spill
RPC1: clusCount 402 clusSize 2.0497513
012345678910111213141516171819202122232425262728293031
0254694210534350001201001000002000000
RPC1: clusCount 10415 clusSize 2.1174269
069301165138329613646584725352226154422664212911173590000000
0
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RB3_34 9200V, noise,average clusters size 2.1
-
Conclusions from the LB system tests in May 2003The histograms and snapshots work well and have proved their usefulness in testing the performance of chambers.TTCrx signals distribution, test pulses and FPGA loading work well.Optical link will be tested as soon as the quartz for the PLL is availableProblems with CCU block transfer and I2C control of FEBsSolved now
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Conclusions of 2002 and 2003 radiation tests in JyvaskylaXilinx Spartan-IIE chips have small enough SEU in configuration bitsDynamic SEU are much less probable then SEU in configuration bits Reloading of the FPGAs every 10 minutes should guarantee that at most a few SEUs will be accumulated in all LBs FPGAs, what should not affect the system performance FLASH memories are resistant enough to radiation and will be used on final Control BoardsMore detailshttp://hep.fuw.edu.pl/cms/esr/docs/RadiationTests.pdf
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LB boxes (LBx) inventory
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RE1/1 LB boxes a special case
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Standard LB boxes VME crates
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Integration issues: position of LB boxes in the racks on the balconies
Cabling RE1/2 and 1/3 signalsLink Board Boxes (VME crates) in RacksL max= 11.5 m
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YE-1 Racks on Towers
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Barrel cablingS.Bally
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Progress in UCS55 electronics
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USC55 inventory
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PAC processor progress in the VHDL codes
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FPGA PAC in the barrel
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FPGA PAC in the endcaps
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COSTWe are revising the PACT CORE cost estimate.At present, the CORE costs are 3750 kCHF, while our starting estimate in 1997 was 3695 kCHF. This cost estimate is for the full trigger system up to eta=2.1 but without RE5.
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COST contd.Financing:Finland 1020 kCHFPoland 2060 kCHFBari 100 kCHFTOTAL 3180 kCHF+ Korea 400 kCHF ?Conclusion: either design a cheaper system or stage and hope for extra funding.Almost enoughfor up to eta=1.6
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COST contd.Main cost uncertainties/ drivers:PAC FPGAs assumed 300 CHF/pc, total amount for PAC FPGA 345 kCHF, present cost of SPARTAN ALTERAs are higher.Splitter system assumed 1000 CHF/ TB, total amount for splitters 108 kCHF. The cost drivers are opto receivers (on the TB as well as on Splitter Bds) / opto transmitters.
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Staging and Cost SavingFirst approximation for the strategy for PACT electronics construction: Order elements for LB system for existing RPCs (up to eta=1.6, w/o RE5) and RE11 (difficulties in latter installation of LBx there). Order elements and assembly Splitter System only for existing RPCs. Order elements and assembly TB w/o PAC FPGAs for the complete system. Order PAC FPGAs for towers up to eta=1.6 If not out of money order more FPGAs/ Links.
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Schedule defined Nov. 02
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LB project schedule
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Splitter schedule
2002 2003 2004
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TB- TC- Integration schedule
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Milestones defined Nov. 02
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ManpowerWarsaw: electronics engineers + WUT students 2.5 + 2 (FTE) PhD students 1.5 Technicians 1.5 Programmers 0.8
Finland:
Bari:
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ConclusionsCOST: Almost within estimates from 1997Still substantial uncertainties ( 10 %, maybe even up to 20%?) but firming upSCHEDULE:TightCritical path: LB mechanics, splitters, trigger boardMANPOWER:Biggest worryRecently more help from Finland (LB production and Splitters)Warsaw manpower sufficient for USC55 electronics - TB/ ROB/TCBari: suficient for Sorter Crate