NEXT
Make New Entry,
Make Followup Entry
User name adaq
Log entry time 10:18:08 on October 31, 2016
Entry number 415566
keyword=End_of_Run_14212
****************************
Run Number: 14212
End of Run Comment:
Run_type=Production DVCS,target_type=15 cm LH2 top,comment_text=10uA beam currentm raster 2x3 mcc units (2x2mm), BPM X/Y= 0.8/0.6, loop2 target
can't read "offset(u3)": no such element in array
while executing
"expr ($hvf($bcm$f,$h)-($offset($bcm$f)..."
invoked from within
"set ch($bcm$f,$h) [ expr ($hvf($bcm$f,$h)-($offset($bcm$f)..."
("foreach" body line 3)
invoked from within
"foreach h { 0 1 -1 } {
# assume offset and con are independent of helicity
set ch($bcm$f,$h) [ expr ($hvf($bcm$f,$h)-($offset($bcm$f)*$clock($h)))*$con($bcm$f) ]
# puts "$ch($bcm$f,$h)"
# puts "$hvf($bcm$f,$h)"
# puts "$offset($bcm$f)"
# puts "$clock($h)"
# puts "$con($bcm$f)"
}"
("foreach" body line 2)
invoked from within
"foreach f { 1 3 10 new } {
foreach h { 0 1 -1 } {
# assume offset and con are independent of helicity
set ch($bcm$f,$h) [ expr ($hvf($bcm$f,$h)-($offset($bcm$f)*$clock($h)))*$con($bcm$f) ]
# puts "$ch($bcm$f,$h)"
# puts "$hvf($bcm$f,$h)"
# puts "$offset($bcm$f)"
# puts "$clock($h)"
# puts "$con($bcm$f)"
}
}"
("foreach" body line 2)
invoked from within
"foreach bcm { u d } {
foreach f { 1 3 10 new } {
foreach h { 0 1 -1 } {
# assume offset and con are independent of helicity
set ch($bcm$f,$h) [ expr ($hvf($bcm$f,$h)-($offset($bcm$f)*$clock($h)))*$con($bcm$f) ]
# puts "$ch($bcm$f,$h)"
# puts "$hvf($bcm$f,$h)"
# puts "$offset($bcm$f)"
# puts "$clock($h)"
# puts "$con($bcm$f)"
}
}
}"
(procedure "halla_scaler_process_L" line 231)
invoked from within
"halla_scaler_process_L .mid.tex scalerinfo "
****************************
End-of-run EPICS data for Run Number 14212 at Mon Oct 31 10:17:39 EDT 2016
Right and Left MLU settings
Left MLU settings
0 0xffff
time of Left HRS MLU last setting 13 at 10:20
Right MLU settings
0 0xffff
time of Right HRS MLU last setting 13 at 10:20
The meaning of the settings is documented elsewhere; briefly:
first number is 0 or 1
0 = standard GMp trigger
1 = single detector trigger
second number is a bit mask
bit=1 means output is enabled
bit=0 means output is disabled
only last 8 bits are relevant for NIM output
General Run Info
------
Beam Energy Information:
Set Beam energy (MeV) : 8518.49
Tiefenbach 6GeV Beam energy (MeV) : 8495.24
Tiefenbach 6GeV orbit correction (dpp) : -0.000107614
Injector Measured Energy : 115.647
Average North Linac Measured Energy : 1052.69433333333333
Average South Linac Measured Energy : 1048.84666666666667
MBSY1c Magnet Current : 360.107
MBSY1c Bdl : 2.1256e+06
Hall A ARC Current : 360.036
Hall A ARC Set Current : 360.107
Lock [Y/N] : YES
Position [mm] : 1604
Field [T] :0.69908
IPM1C12.XPOS : -0.0934511
------
Beam Current : 10.075
------
Left arm angle : 20.9853
Left arm momentum : 3.18702
Right arm angle : 53.4729
Right arm momentum : 1.804
------
Fast Raster-A Ix : 15.8
Fast Raster-A Iy : 22.344
Fast Raster-B Ix : 15.4
Fast Raster-B Iy : 26.733
Misc Epics Info
-----
Left Arm Q1 momentum : 0.883546
Left Arm Q1 power supply (readback) : 664.72
Left Arm Q1 power supply (set point) : 664.78
Left Arm Q1 gauss meter : -1.09265
Left Arm Q2 power supply current : 1372.13
Left Arm Q2 momentum : 3.18655
Left Arm Q2 gauss meter : 0.7185
Left Arm Q2 power supply polarity : disabled
Left Arm D1 power supply current : 1119.58
Left Arm D1 momentum : 3.18702
Left Arm D1 NMR : 1.18024
Left Arm Q3 power supply current : 1268.64
Left Arm Q3 momentum : 3.18658
Left Arm Q3 gauss meter : -0.63945
Left Arm Q3 power supply polarity : disabled
Left Arm B Field Hall Probe (D-G) : -1.1366
-----
Average current of the two cavities : 10.067
Current on Upstream bcm : 10.0804
Current on Downstream bcm : 10.0535
Upstream Cavity Coefficient : 40.259
Downstream Cavity Coefficient : 34.043
Raw Upstream Signal (new receiver) : 5072
Raw Downstream Signal (new receiver) : 5564
---
IPM1H04A.XPOS : 0.787253
IPM1H04A.YPOS : 0.646833
IPM1H04E.XPOS : 0.78533
IPM1H04E.YPOS : 0.615112
---
Moeller quadrupole currents:
MQK1H01M : -5.47604
MQO1H02M : 177.853
MQM1H02M : 177.773
MQO1H03M : 30.9078
MQO1H03AM : 150.454
MQA1H04M : -4.45099
-----
Wien angle (Vertical) : 0
Wien Vertical BDL (Gcm) : 9.37619e-06
Wien HV Polarity : POSITIVE
Wien electrode Voltage : 0
Wien angle (Solenoids) : 0.00052793
Wien BDL (First Solenoid) (Gcm) : 978
Wien BDL (Second Solenoid) (Gcm) : -977.988
Wien angle (Horizontal) : 53.5008
Wien BDL (Gcm) : 1542.1
Wien HV Polarity (Horizontal) : POSITIVE
Wien electrode Voltage (Horizontal) : 0
Laser attenuation Hall A : 240.007
Laser power Hall A : 0
Rotating waveplate : 0.168
Fake Half-Wave Plate (8960=OUT) : 13119
Beam Half-wave plate (off=out) : OUT
-----
Helicity Delay Set : No Delay
Helicity Pattern Set : Quartet
Helicity Clock Set : Free Clock
Helicity Settle Read : 500
Helicity Stable Read : 33330
Helicity Delay Read : No Delay
Helicity Pattern : Quartet
Helicity Clock Read : Free Clock
Helicity Frequency : 29.5596
-----
target OTR In/Out : Out
Target Info
-----
Target : Loop 2
fan frequency loop 1 : 0
fan frequency loop 2 : 60
fan frequency loop 3 : 0
Encoder position : 2.57999e+07
Target type : 2.57999e+07
temperature loop 1(1) : 190.23
temperature loop 1(2) : 101.82
temperature loop 1(3) : 105.92
Heat exchange loop 1 H2 : 100.56
temperature loop 2(1) : 18.897
temperature loop 2(2) : 18.904
temperature loop 2(3) : 18.585
Heat exchange loop 2 LH2 : 18.971
temperature loop 3(1) : 275.53
temperature loop 3(2) : 274.3
temperature loop 3(3) : 275.72
Heat exchange loop 3 H2 : 275.29
pressure loop H2 before : 27.187
pressure loop H2 return : 28.7876
pressure loop H2 before : 29.0165
pressure loop H2 return : 29.2713
HPH loop 1 : 2.81469
HPH loop 2 : 238.518
HPH loop 3 : 2.87187
DVCS Calorimeter
Measured HV voltages
15 : -422.4 -447.9 -423.6 -418.7 -430.8 -401.8 -404.2 -452.9 -460.6 -444.4 -435.4 -400.4 -437.0
14 : -464.9 -453.4 -451.7 -445.7 -414.5 -392.0 -407.3 -401.9 -446.6 -399.4 -396.1 -426.3 -399.6
13 : -401.6 -466.2 -430.2 -447.7 -431.2 -441.3 -415.2 -449.2 -455.5 -408.2 -437.6 -436.4 -449.2
12 : -414.5 -424.4 -429.9 -401.4 -410.3 -371.3 -401.8 -391.0 -422.8 -397.4 -391.1 -433.3 -421.3
11 : -438.3 -443.8 -406.2 -444.0 -415.8 -397.9 -439.5 -446.1 -420.7 -448.5 -421.2 -425.9 -406.7
10 : -478.4 -460.6 -442.9 -428.2 -429.1 -400.2 -396.8 -434.6 -380.9 -437.0 -389.1 -437.0 -398.5
09 : -395.0 -421.0 -400.3 -449.5 -442.9 -396.4 -440.5 -422.7 -423.4 -395.8 -385.3 -430.8 -389.2
08 : -444.5 -448.0 -431.2 -411.0 -467.8 -390.4 -454.0 -367.5 -403.2 -413.1 -382.3 -449.2 -407.1
07 : -407.1 -414.8 -440.2 -398.7 -428.2 -383.1 -401.9 -383.4 -396.1 -396.2 -386.0 -387.3 -454.6
06 : -441.6 -445.3 -448.9 -427.4 -446.2 -408.5 -441.3 -447.9 -444.0 -407.4 -386.5 -435.5 -394.6
05 : -443.4 -429.0 -396.1 -450.8 -423.0 -428.3 -375.8 -381.8 -397.8 -387.4 -380.6 -465.4 -408.4
04 : -429.3 -457.9 -454.8 -399.1 -429.6 -442.6 -431.7 -445.8 -402.3 -417.4 -404.6 -419.4 -422.7
03 : -428.7 -417.4 -397.3 -375.4 -409.5 -394.7 -373.7 -394.6 -423.9 -396.5 -405.2 -420.4 -403.2
02 : -423.7 -421.7 -436.1 -401.4 -424.5 -411.4 -403.5 -410.2 -394.8 -422.8 -433.4 -411.0 -458.6
01 : -429.5 -437.8 -446.8 -475.6 -437.6 -406.8 -373.8 -418.7 -386.3 -416.0 -417.8 -408.7 -394.0
00 : -398.0 -434.9 -417.5 -474.4 -443.8 -452.9 -464.4 -445.1 -426.2 -467.9 -434.9 -431.5 -445.9
Measured HV currents
15 : -417.3 -442.1 -417.0 -416.3 -428.5 -396.8 -402.5 -447.4 -458.7 -442.9 -432.0 -397.1 -442.8
14 : -462.9 -452.3 -449.1 -441.7 -408.0 -388.9 -403.0 -400.6 -438.7 -395.6 -395.0 -422.4 -402.3
13 : -395.5 -460.3 -424.6 -443.5 -428.3 -435.8 -410.3 -443.6 -452.0 -405.4 -432.0 -432.1 -458.0
12 : -412.4 -423.3 -425.9 -399.9 -406.6 -368.7 -400.6 -388.4 -415.1 -395.7 -389.6 -430.6 -428.9
11 : -431.9 -439.5 -400.1 -439.1 -415.3 -394.6 -445.7 -443.8 -419.2 -447.5 -417.9 -423.7 -413.1
10 : -474.4 -456.4 -441.0 -426.0 -423.6 -395.7 -403.5 -430.4 -375.9 -431.6 -388.7 -434.2 -404.5
09 : -389.2 -417.6 -396.7 -445.4 -437.7 -391.1 -443.1 -420.4 -419.4 -391.9 -381.9 -427.1 -394.0
08 : -437.6 -443.8 -427.4 -404.8 -467.0 -384.4 -459.6 -364.9 -398.0 -411.5 -382.0 -448.2 -412.7
07 : -405.0 -409.6 -438.4 -395.0 -420.9 -383.7 -403.3 -378.0 -396.0 -391.3 -381.7 -387.2 -461.3
06 : -434.4 -442.3 -445.8 -423.8 -442.7 -406.1 -448.9 -445.8 -441.3 -404.7 -385.1 -429.7 -396.2
05 : -440.9 -423.0 -393.9 -444.4 -419.6 -428.2 -378.7 -381.5 -393.9 -384.3 -378.1 -465.0 -416.2
04 : -422.9 -457.3 -451.7 -396.3 -423.5 -438.6 -436.5 -441.5 -397.5 -413.1 -399.1 -416.2 -428.0
03 : -427.5 -414.3 -394.2 -372.1 -406.0 -390.9 -377.2 -389.5 -419.3 -396.1 -404.0 -416.5 -409.3
02 : -417.4 -419.4 -433.1 -397.1 -419.3 -409.3 -411.6 -406.9 -390.4 -420.9 -428.8 -407.0 -463.4
01 : -427.8 -436.3 -444.2 -473.8 -432.5 -403.4 -378.9 -414.0 -383.8 -413.1 -415.6 -407.0 -400.6
00 : -395.2 -429.8 -414.7 -469.4 -437.7 -445.7 -468.6 -440.9 -421.5 -463.2 -429.9 -424.7 -450.8
Measured HV for DVCS Cosmic paddels
-------------------------------------------------------------------
DVCS Cosmic Padels TOP
TOP1: Error open connection(PID:0) : err-3 : errno=22
TOP2: Error open connection(PID:0) : err-3 : errno=22
DVCS Cosmic Padels BOTTOM
BOTTOM1: Error open connection(PID:0) : err-3 : errno=22
BOTTOM2: Error open connection(PID:0) : err-3 : errno=22
-------------------------------------------------------------------
Measured anode currents: block number
DVCS IOCHACS is LIVE !!
15 : -0.005 -0.007 0.004 0.003 0.020 0.032 0.014 0.021 0.014 0.049 0.048 0.030 0.009
14 : -0.004 -0.007 -0.006 -0.003 0.020 0.026 0.029 0.019 0.041 0.050 0.031 0.033 0.009
13 : -0.011 -0.004 -0.006 -0.010 0.021 0.034 0.031 0.022 0.045 0.050 0.038 0.029 0.023
12 : -0.007 -0.008 -0.010 -0.007 0.023 0.031 0.035 0.013 0.033 0.048 0.033 0.032 0.023
11 : 0.000 -0.001 -0.012 -0.014 0.021 0.034 0.026 0.016 0.039 0.051 0.040 0.035 0.024
10 : -0.001 -0.002 -0.010 -0.002 0.023 0.028 0.022 0.026 0.049 0.047 0.041 0.043 0.028
9 : -0.006 0.001 -0.009 -0.004 0.022 0.029 0.028 0.025 0.042 0.045 0.038 0.042 0.009
8 : 0.000 -0.005 -0.002 -0.013 0.021 0.029 0.034 0.023 0.044 0.042 0.038 0.042 0.018
7 : -0.007 -0.006 -0.010 -0.019 0.017 0.030 0.033 0.011 0.032 0.037 0.040 0.019 0.025
6 : -0.009 -0.002 -0.008 -0.017 0.019 0.005 -0.011 0.032 0.043 0.041 0.040 0.019 0.027
5 : -0.007 -0.005 -0.018 -0.021 0.016 0.024 0.027 0.029 0.042 0.031 0.034 0.019 0.021
4 : 0.002 -0.006 -0.010 -0.015 0.016 0.022 0.034 0.017 0.036 0.023 0.036 0.014 0.020
3 : 0.008 -0.002 -0.016 -0.009 0.013 0.019 0.029 0.009 0.035 0.029 0.032 0.015 0.017
2 : 0.005 -0.002 -0.020 -0.011 0.013 0.022 0.030 0.029 0.045 0.024 0.038 0.017 0.014
1 : 0.006 -0.001 -0.014 -0.014 0.012 0.021 0.028 0.026 0.038 0.023 0.040 0.020 0.011
0 : -0.002 -0.008 -0.013 -0.017 0.017 0.023 0.025 0.026 0.057 0.029 0.034 0.015 0.015
LHRS Detector High Voltage and Current
S0
A B
Set HV (V) -1225 -1125
Read HV (V) -1226 -1126
I (uA) -305 -523
S2m
1L 2L 3L 4L 5L 6L 7L 8L 9L 10L 11L 12L 13L 14L 15L 16L
Set HV (V) -1540 -1490 -1775 -1730 -1685 -1620 -1700 -1655 -1705 -1780 -1775 -1735 -1695 -1800 -1560 -1450
Read HV (V) -1540 -1491 -1776 -1731 -1683 -1622 -1701 -1656 -1706 -1780 -1775 -1737 -1697 -1802 -1562 -1451
I (uA) -584 -565 -675 -657 -641 -617 -644 -630 -646 -674 -676 -659 -643 -685 -592 -549
1R 2R 3R 4R 5R 6R 7R 8R 9R 10R 11R 12R 13R 14R 15R 16R
Set HV (V) -1465 -1610 -1755 -1660 -1720 -1725 -1770 -1845 -1855 -1795 -1765 -1500 -1540 -1685 -1740 -1620
Read HV (V) -1465 -1612 -1757 -1660 -1721 -1726 -1771 -1846 -1857 -1796 -1766 -1500 -1541 -1686 -1740 -1621
I (uA) -555 -611 -668 -635 -654 -656 -670 -702 -714 -681 -669 -567 -583 -638 -662 -615
Cherenkov
1 2 3 4 5 6 7 8 9 10
Set HV (V) -1155 -1000 -1125 -995 -1025 -1120 -935 -965 -985 -1155
Read HV (V) -1152 -1002 -1126 -995 -1025 -1120 -936 -965 -986 -1157
I (uA) -390 -319 -393 -332 -338 -373 -309 -307 -319 -397
PRL1
1L 2L 3L 4L 5L 6L 7L 8L 9L 10L 11L 12L 13L 14L 15L 16L 17L
Set HV (V) -729 -669 -754 -759 -645 -729 -871 -831 -689 -663 -722 -669 -736 -750 -630 -735 -767
Read HV (V) -730 -670 -754 -760 -646 -730 -873 -832 -690 -664 -723 -669 -737 -751 -630 -735 -768
I (uA) -173 -159 -180 -181 -154 -173 -207 -198 -164 -157 -172 -160 -175 -179 -150 -175 -182
1R 2R 3R 4R 5R 6R 7R 8R 9R 10R 11R 12R 13R 14R 15R 16R 17R
Set HV (V) -678 -672 -734 -1058 -851 -906 -707 -898 -741 -761 -621 -750 -669 -667 -716 -646 -713
Read HV (V) -679 -672 -733 -1059 -851 -907 -709 -898 -742 -762 -622 -750 -670 -667 -716 -647 -713
I (uA) -167 -165 -165 -224 -205 -210 -174 -219 -180 -186 -151 -183 -162 -162 -175 -157 -174
PRL2
18L 19L 20L 21L 22L 23L 24L 25L 26L 27L 28L 29L 30L 31L 32L 33L 34L
Set HV (V) -713 -733 -654 -711 -659 -739 -690 -706 -682 -628 -681 -654 -605 -647 -661 -703 -759
Read HV (V) -714 -734 -654 -712 -659 -740 -692 -707 -683 -629 -681 -655 -605 -647 -662 -704 -760
I (uA) -169 -175 -156 -170 -157 -175 -164 -168 -162 -150 -162 -156 -144 -154 -158 -167 -181
18R 19R 20R 21R 22R 23R 24R 25R 26R 27R 28R 29R 30R 31R 32R 33R 34R
Set HV (V) -649 -643 -660 -612 -576 -716 -652 -788 -729 -692 -827 -824 -654 -712 -789 -741 -714
Read HV (V) -649 -645 -660 -612 -578 -717 -653 -789 -729 -694 -828 -825 -655 -713 -790 -741 -715
I (uA) -155 -154 -158 -146 -138 -171 -155 -188 -174 -165 -197 -197 -161 -169 -189 -168 -167
VDC
1 2
Set HV (V) -3500 -3500
Read HV (V) -3499 -3500
I (uA) -0 -0
Straw Chamber
1 2 3 4 5 6
Set HV (V) 1800 1800 1800 1800 1800 1800
Read HV (V) 1801 1802 1802 1801 1801 1801
I (uA) 2 3 3 2 2 3