NEXT
Make New Entry,
Make Followup Entry
User name a-onl
Log entry time 22:15:14 on April 14, 2009
Entry number 266880
keyword=End_of_Run_1128
****************************
Run Number: 1128
End of Run Comment:
Run_type=Test,target_type=No Target,targetpol_poldir=Transverse-in-plane,targetpol_pol=58.7,beam_e0=4.734,beam_raster=on,beam_halfwaveplate=in,leftarm_p=0.6,leftarm_theta=45,leftarm_sieve=out,bbarm_i=710,bbarm_theta=45,bbarm_sieve=out,bbarm_zoff=0,comment_text=cosmic test
divide by zero
while executing
"expr ($hvf($bcm$f,$h)/$time($h)*(1.-$offset($bcm$f,0) * $time(0) / $hvf($bcm$f,0)))/$con($bcm$f) "
invoked from within
"set ch($bcm$f,$h) [expr ($hvf($bcm$f,$h)/$time($h)*(1.-$offset($bcm$f,0) * $time(0) / $hvf($bcm$f,0)))/$con($bcm$f) ]..."
("foreach" body line 3)
invoked from within
"foreach h { 0 1 -1 2 -2} {
# ch = ( hvf/time - offset )/const * time * 1e-6
set ch($bcm$f,$h) [expr ($hvf($bcm$f,$h)/$time($h)*(1.-$offset($bcm$f,0) * $time(0) / $hvf($bcm$f,0)))/$con($bcm$f) ];
}"
("foreach" body line 2)
invoked from within
"foreach f { 1 3 10 } {
foreach h { 0 1 -1 2 -2} {
# ch = ( hvf/time - offset )/const * time * 1e-6
set ch($bcm$f,$h) [expr ($hvf($bcm$f,$h)/$time($h)*(1.-$offset($bcm$f,0) * $time(0) / $hvf($bcm$f,0)))/$con($bcm$f) ];
}
foreach h { 0 1 -1 2 -2} {
set ch($bcm$f,$h) [expr $ch($bcm$f,$h)*$time($h)*1e-6 ]
}
set dif1($bcm$f) [ expr ( $ch($bcm$f,1) - $ch($bcm$f,2) ) ]
set sum1($bcm$f) [ expr ( $ch($bcm$f,1) + $ch($bcm$f,2) ) ]
if { $sum1($bcm$f) > 0 } {
set asy($bcm$f) [ expr $dif1($bcm$f)/$sum1($bcm$f) ]
} else {
set asy($bcm$f) 1.0e+33
}
set dif2($bcm$f) [ expr ( $ch($bcm$f,-2) - $ch($bcm$f,-1) ) ]
set sum2($bcm$f) [ expr ( $ch($bcm$f,-2) + $ch($bcm$f,-1) ) ]
if { $sum2($bcm$f) > 0 } {
set asy2($bcm$f) [ expr $dif2($bcm$f)/$sum2($bcm$f) ]
} else {
set asy2($bcm$f) 1.0e+33
}
}"
("foreach" body line 2)
invoked from within
"foreach bcm { u d } {
foreach f { 1 3 10 } {
foreach h { 0 1 -1 2 -2} {
# ch = ( hvf/time - offset )/const * time * 1e-6
set ch($bcm$f,$h) [expr ($hvf($bcm$f,$h)/$time($h)*(1.-$offset($bcm$f,0) * $time(0) / $hvf($bcm$f,0)))/$con($bcm$f) ];
}
foreach h { 0 1 -1 2 -2} {
set ch($bcm$f,$h) [expr $ch($bcm$f,$h)*$time($h)*1e-6 ]
}
set dif1($bcm$f) [ expr ( $ch($bcm$f,1) - $ch($bcm$f,2) ) ]
set sum1($bcm$f) [ expr ( $ch($bcm$f,1) + $ch($bcm$f,2) ) ]
if { $sum1($bcm$f) > 0 } {
set asy($bcm$f) [ expr $dif1($bcm$f)/$sum1($bcm$f) ]
} else {
set asy($bcm$f) 1.0e+33
}
set dif2($bcm$f) [ expr ( $ch($bcm$f,-2) - $ch($bcm$f,-1) ) ]
set sum2($bcm$f) [ expr ( $ch($bcm$f,-2) + $ch($bcm$f,-1) ) ]
if { $sum2($bcm$f) > 0 } {
set asy2($bcm$f) [ expr $dif2($bcm$f)/$sum2($bcm$f) ]
} else {
set asy2($bcm$f) 1.0e+33
}
}
}"
(procedure "halla_scaler_process" line 358)
invoked from within
"halla_scaler_process .mid.tex scalerinfo "
****************************
End-of-run EPICS data for Run Number 1128 at Tue Apr 14 22:14:00 EDT 2009
Wien angle : 0
Half-wave plate (off=out) : IN
Left Arm D1 momentum : HacL_D1_P0rb --- Invalid channel name
Left Arm arm angle : HacL_alignAGL --- Invalid channel name
Right Arm D1 momentum : 0.00481154
Right Arm arm angle : 44.1365
-----
HALLA:p : 5892.04
HALLA:dpp : 0
Tiefenbach Hall A energy : 5892.04
Left Arm Top VDC Current : 5.61523
Left Arm Bottom VDC Current : 4.44336
Left Arm Top VDC voltage : 4.00342
Left Arm Bottom VDC voltage : 4
-----
Right Arm Top VDC Current : -1.2207
Right Arm Bottom VDC Current : -1.26953
Right Arm Top VDC voltage : 0.0126953
Right Arm Bottom VDC voltage : 0
-----
Left Arm Q1 momentum : HacL_Q1_P0rb --- Invalid channel name
Left Arm Q1 power supply : 0
Left Arm Q1 gauss meter : HacL_Q1_LS450:FLD_DATA --- Invalid channel name
Left Arm Q2 gauss meter : HacL_Q2_LS450:FLD_DATA --- Invalid channel name
Left Arm Q2 power supply current : HacL_Q2_HP3458A:IOUT --- Invalid channel name
Left Arm Q2 momentum : HacL_Q2_P0rb --- Invalid channel name
Left Arm Q2 power supply polarity : HacL_VMIC1182:0_Ch17 --- Invalid channel name
Left Arm D1 power supply current : HacL_D1_HP3458A:IOUT --- Invalid channel name
Left Arm D1 momentum : HacL_D1_P0rb --- Invalid channel name
Left Arm D1 NMR : HacL_D1_NMR:SIG --- Invalid channel name
Left Arm Q3 gauss meter : HacL_Q3_LS450:FLD_DATA --- Invalid channel name
Left Arm Q3 power supply current :
Left Arm Q3 momentum :
Left Arm Q3 power supply polarity :
-----
BigBite magnet current setpoint :
BigBite magnet current readback : 0
BigBite Gaussmeter readback :
-----
Average current of the two cavities :
Current on Unser monitor :
Current on Upstream bcm : 0.0542172
Current on Downstream bcm :
Upstream Cavity Coefficient : 48.345
Downstream Cavity Coefficient : 47.773
Current on IBC0L02 (source) :
Hall C Current : 28.7502
MBSY1c magnet current (amp) :
MBSY1c Bdl : 1.47358e+06
Hall A momentum (Tiefenbach) (HALLA:p) :
Hall A momentum orbit correction (dpp) : 0
Hall A setup momentum (MMSHLAE) :
Hall A energy (halla_MeV) :
Hall C energy (hallc_MeV) : 4728
Delta(E)/E width (MV_AI_DXWID) :
IPM1C12.XPOS : 0
IPM1H04A.XPOS :
IPM1H04A.YPOS : 0
IPM1H04B.XPOS :
IPM1H04B.YPOS : 0
-----
HacL_HPE1313A:0_Ch58 :
HacL_HPE1313A:0_Ch55 :
HacL_HPE1313A:0_Ch54 :
Left Arm Angle Vernier :
Left Arm Scattering Angle :
Left VDC -DISC LVL Top : 3.89453
Left VDC -DISC LVL Bottom :
Left VDC -DISC LVL Voltage1 : 4.96973
Left VDC -DISC LVL Voltage2 : -5.05615
-----
Wien angle :
Helicity Mode ON/OFF Random/Toggle : OFF
Wien BDL : 0
Wien field :
Laser attenuation Hall A :
Laser power Hall A : 100
Half-wave plate (off=out) :
rotating waveplate : 0
Beam Half-wave plate (off=out) :
-----
G0 Helicity Settle Read : 500 usec
G0 Helicity Delay Read :
G0 Helicity Pattern :
G0 Helicity Cycle Rate Read : 30 Hz
-----
Target OTR x-position : -2.3681
Target OTR y-position : -0.957394
Target OTR x-width : 2.60462
Target OTR y-width : 2.38181
Target OTR data valid flag : No
Target OTR In/Out : OTR is Out
-----
SLI data valid? : No
SLI horiz size mm : 0
SLI Energy spread *10^5 : 0
SLI x position : 0.827329
SLI vert. size mm : 0
SLI y position : 1.57746
-----
Polarized 3He Target
RTD1 (upstream) : 21.084
RTD2 : 21.0742
RTD3 : 21.0352
RTD4 : 21.3477
RTD5 (downstream) : 20.9961
RTD6 (pump cell up) : 24.9023
RTD7 (pump cell down) : 25.1367
HacAi_hpchan7: Temp at Ref. Cell : 0
HacAi_hpchan8: Temp at Ref. Cell : 0
HacAi_hpchan9: Temp at Ref. Cell : 0
Reference Cell Gas Pressure (psi) : -275.722
Reference Cell System Vacuum (Torr) : -279.809
Cooling Jets Flow Rate : 1.00708
Target position : -9.37
Oven Air Flow : 22.7
-----
HaGenTargBrake : enabled
HaGenTargBrake : enabled
HacOMEGA_AL1 : 0
HacOMEGA_READ : 022.6
HacOMEGA_SP1 : 20
HacOMEGA_PROP1 : 1000
HacOMEGA_RST1 : 120
HacOMEGA_RATE : 0
-----
CLASER_STATE_MB : On
CLASER_RDCUR : 9
CLASER_TEMP : 14
-----
CLASER2_STATE_MB : Disabled
CLASER2_RDCUR : 0
CLASER2_TEMP : 0
-----
CLASERAB_STATE_MB : Disabled
CLASERAB_GETCUR0 : 0
CLASERAB_GETCUR1 : 0
CLASERAB_GETTEMP0 : 0
CLASERAB_GETTEMP1 : 0
-----
CLASER3_STATE_MB : On
CLASER3_RDCUR : 8
CLASER3_TEMP : 23
-----
CLASER4_STATE_MB : On
CLASER4_RDCUR : 8
CLASER4_TEMP : 16
-----
CLASER5_STATE_MB : On
CLASER5_RDCUR : 9
CLASER5_TEMP : 19.2
-----
CLASER6_STATE_MB : On
CLASER6_RDCUR : 9
CLASER6_TEMP : 14
-----
CLASERAB2_STATE_M : Disabled
CLASERAB2_GETCUR0 : 0
CLASERAB2_GETCUR1 : 0
CLASERAB2_GETTEMP0 : 0
CLASERAB2_GETTEMP1 : 0
----
CLASERAB3_STATE_M : Disabled
CLASERAB3_GETCUR0 : 0
CLASERAB3_GETCUR1 : 0
CLASERAB3_GETTEMP0 : 0
CLASERAB3_GETTEMP1 : 0
----
nld1_lasmdp : 0
ntc1_temp : 25.8599
nld1_lasouti : Disable
ntc1_tecouti : Enable
nld1_lascond : 512
----
nld2_lasmdp : 0
ntc2_temp : 20
nld2_lasouti : Disable
ntc2_tecouti : Enable
nld2_lascond : 512
----
nld3_lasmdp : 0
ntc3_temp : 25
nld3_lasouti : Disable
ntc3_tecouti : Enable
nld3_lascond : 512
----
DDM45_1disp1_read : 0
DDM45_2disp1_read : 0
DDM45_3disp1_read : 0
----
haPolHe3_Spin_State : 0
haPolHe3_Flip_Sequence_ID : 0
haPolHe3_Flip_Count : 0
haPolHe3_EPR_ID : 0
haPolHe3_EPR_POL : 0
haPolHe3_Last_Flip_Start : 0.000000000000000e+00
haPolHe3_Last_Flip_End : 0.000000000000000e+00
haPolHe3_FLIP_NMR_PHASE : 0
haPolHe3_FLIP_NMR_Mag : 0
haPolHe3_FLIP_NMR_Pol : 0
HaGenTargSpin1 : disabled
HaGenTargSpin2 : disabled
HaGenTargPos : -9.37
----