Difference between revisions of "TS RunGroupC"
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| Line 1: | Line 1: | ||
| + | =Detector Images= | ||
| + | {| class="wikitable" align="center" border=1 | ||
| + | |+ Detector Images | ||
| + | |- | ||
| + | |[[File:Re1eetSpotOn.png | 300 px]] ||[[File:RecSwetOff.png | 300 px]] | ||
| + | |- | ||
| + | | No Events|| Solenoid On with a proton and electron event|| | ||
| + | |} | ||
| + | |||
=Inclusive electron scattering= | =Inclusive electron scattering= | ||
| Line 5: | Line 14: | ||
Send electrons only at the center of a single sector. | Send electrons only at the center of a single sector. | ||
| − | <option name="BEAM_P" value="e-, | + | <option name="BEAM_P" value="e-, 6.0*GeV, 25.0*deg, 0*deg"/> |
| − | <option name="SPREAD_P" value=" | + | |
| + | <option name="SPREAD_P" value="4.0*GeV, 0*deg, 0*deg"/> | ||
| + | |||
| + | |||
| + | The generated plots are going to be centered at one point. For Theta that is 25 degrees. For Phi that is 0 degrees. | ||
| + | There are 323,066 generated events for no solenoid. | ||
| + | There are 573,362 generated events for solenoid on. | ||
| + | {| class="wikitable" align="center" border=1 | ||
| + | |+ Reconstructed 1D No Solenoid | ||
| + | |- | ||
| + | |[[File:RecPhiOff1D.png | 300 px]] ||[[File:RecThetaOff1D.png | 300 px]] | ||
| + | |- | ||
| + | |Rec Phi Off|| Rec Theta Off|| | ||
| + | |} | ||
| + | |||
| + | |||
| + | {| class="wikitable" align="center" border=1 | ||
| + | |+ Overlay | ||
| + | |- | ||
| + | |[[File:OnOverOff1D.png | 300 px]] ||[[File:ThetaOnOverOff1D.png | 300 px]] | ||
| + | |- | ||
| + | |Phi On Over Off|| Theta On Over Off|| | ||
| + | |} | ||
| + | |||
| + | zoom in 24 < theta < 26 and -15 < phi < 15 | ||
| + | |||
| + | {| class="wikitable" align="center" border=1 | ||
| + | |+ Reconstruction efficiency | ||
| + | |- | ||
| + | |[[File:RecSweetSpotOn.png | 300 px]] ||[[File:RecSweetSpotOff.png | 300 px]] || [[File:SweetSpotEff.png | 300 px]] | ||
| + | |- | ||
| + | | Reconstructed with no solenoid|| Reconstructed with solenoid|| solenoid off divided by solenoid on|| | ||
| + | |} | ||
| + | |||
| + | zoom in like above and do efficiency plots like below for on/off solenoid | ||
==Inclusive Track Reconstruction efficiencies== | ==Inclusive Track Reconstruction efficiencies== | ||
| Line 35: | Line 78: | ||
|[[File:ThetaPhiNoSolGen.png | 300 px]] ||[[File:ThetaPhiRecNoSol.png | 300 px]] || [[File:ThetaPhiDivNoSol.png | 300 px]] ||[[File:NSEffZoom.png | 300 px]] | |[[File:ThetaPhiNoSolGen.png | 300 px]] ||[[File:ThetaPhiRecNoSol.png | 300 px]] || [[File:ThetaPhiDivNoSol.png | 300 px]] ||[[File:NSEffZoom.png | 300 px]] | ||
|- | |- | ||
| − | |Generated with no solenoid. 824,979 Events || Reconstructed with no solenoid. 609,106 Events|| reconstructed divided by generated with no solenoid | + | |Generated with no solenoid. 824,979 Events || Reconstructed with no solenoid. 609,106 Events|| reconstructed divided by generated with no solenoid 200 Bins, 40 Bins. || Zoomed in version of the efficiency. |
|} | |} | ||
| Line 45: | Line 88: | ||
|[[File:ThetaPhiGenSol.png | 300 px]] ||[[File:ThetaPhiRecSol.png | 300 px]] || [[File:DivThetaPhiSol.png | 300 px]]||[[File:SolEffZoom.png | 300 px]] | |[[File:ThetaPhiGenSol.png | 300 px]] ||[[File:ThetaPhiRecSol.png | 300 px]] || [[File:DivThetaPhiSol.png | 300 px]]||[[File:SolEffZoom.png | 300 px]] | ||
|- | |- | ||
| − | |Generated with solenoid. || Reconstructed with solenoid.|| reconstructed divided by generated with solenoid. | + | |Generated with solenoid. || Reconstructed with solenoid.|| reconstructed divided by generated with solenoid. 80 Bins, 20 Bins. || Zoomed in version of the efficiency. |
|} | |} | ||
| Line 51: | Line 94: | ||
NOTE: The reason the division is at around 5 is because for some reason there were 5x the amount of no solenoid events vs solenoid events. I ran 975,000 events for both no solenoid and solenoid, but a reasonable ~500,000 came out for no solenoid. For some reason only ~100,000 came out for solenoid. | NOTE: The reason the division is at around 5 is because for some reason there were 5x the amount of no solenoid events vs solenoid events. I ran 975,000 events for both no solenoid and solenoid, but a reasonable ~500,000 came out for no solenoid. For some reason only ~100,000 came out for solenoid. | ||
| + | |||
| + | directly divide reconstructed solenoid off by reconstructed solenoid on | ||
| + | |||
No solenoid reconstructed divided by solenoid reconstructed. | No solenoid reconstructed divided by solenoid reconstructed. | ||
| − | [[File: | + | |
| + | {| class="wikitable" align="center" border=1 | ||
| + | |+ Ratio Off/On | ||
| + | |- | ||
| + | |[[File:RecOFfDivRecOnUnzoomed.png | 300 px]] ||[[File:RecOffRecOnZoomed.png.png | 300 px]] | ||
| + | |- | ||
| + | |Bins 400 x 50. || Bins 3 x 1 .|| | ||
| + | |} | ||
| + | |||
| + | |||
| + | directly divide reconstructed solenoid off by reconstructed solenoid on that has been multiplied by (825/150) | ||
===Phi angle shift=== | ===Phi angle shift=== | ||
| Line 76: | Line 132: | ||
===Solenoid On === | ===Solenoid On === | ||
| + | nohup gemc -USE_GUI=0 -INPUT_GEN_FILE="LUND,ReconElasticExclusive_FromOrigin.LUND" -N=75000 shift.gcard > /dev/null & | ||
| + | |||
{| class="wikitable" align="center" border=1 | {| class="wikitable" align="center" border=1 | ||
|+ Reconstruction efficiency | |+ Reconstruction efficiency | ||
|- | |- | ||
| − | |[[File:Gen_Elastic.png | 300 px]] ||[[File:Recon_Elastic.png | 300 px]] || [[File:RecDivGen.png | 300 px]]| | + | |[[File:Gen_Elastic.png | 300 px]] ||[[File:Recon_Elastic.png | 300 px]] || [[File:RecDivGen.png | 300 px]]| |
|- | |- | ||
| − | |Generated with solenoid. || Reconstructed with solenoid.|| reconstructed divided by generated with solenoid. | + | |Generated with solenoid. || Reconstructed with solenoid.|| reconstructed divided by generated with solenoid. 16 Bins, 4 Bins. || |
|} | |} | ||
| + | |||
| + | == Elastics from Dual Target== | ||
| + | |||
| + | Generated and reconstructed separate Plots of sqrt(Vx^2+Vy^2) -vs- Vz | ||
| + | |||
| + | |||
| + | |||
| + | |||
==With Beam rastering== | ==With Beam rastering== | ||
| Line 105: | Line 171: | ||
without solenoid | without solenoid | ||
| − | ~/src/CLAS/coatjava-1.0/bin/clas12-reconstruction -config DCHB::torus=1.0 -config DCHB::solenoid=0.0 -config DCTB::kalman=true -s DCHB:DCTB:EC:FTOF:EB -i eg12.ev -o eg12_rec.evio | + | ~/src/CLAS/coatjava-1.0/bin/clas12-reconstruction -config DCHB::torus=1.0 -config DCHB::solenoid=0.0 -config DCTB::kalman=true -s DCHB:DCTB:EC:FTOF:EB -config DATA::mc=true -i eg12.ev -o eg12_rec.evio |
with solenoid | with solenoid | ||
| − | ~/src/CLAS/coatjava-1.0/bin/clas12-reconstruction -s FMT:DCHB:DCTB:FTOF:EC:EB -config MAG::fields= | + | ~/src/CLAS/coatjava-1.0/bin/clas12-reconstruction -s FMT:DCHB:DCTB:FTOF:EC:EB -config MAG::fields=nomina -config DATA::mc=true -i eg12_5GeVe.evio -o eg12_rec.evio |
evio analysis program | evio analysis program | ||
| Line 176: | Line 242: | ||
root [4] TH1D *RecPhi=new TH1D("RecPhi","RecPhi",400, -200,200); | root [4] TH1D *RecPhi=new TH1D("RecPhi","RecPhi",400, -200,200); | ||
root [5] CLAS12Sim->Draw("evt.Phi>>RecPhi"); | root [5] CLAS12Sim->Draw("evt.Phi>>RecPhi"); | ||
| + | |||
| + | root [5] CLAS12Sim->Draw("evt.Phi>>RecPhi","10"); | ||
go to Generated Events File | go to Generated Events File | ||
| Line 203: | Line 271: | ||
find . -type f -name "*.txt" | find . -type f -name "*.txt" | ||
| + | |||
| + | CLAS12Sim->Draw("evt.Theta >> Gen(20,15,35)"); | ||
| + | CLAS12Sim->Draw("evt.Theta >> Rec(20,15,35)"); | ||
| + | |||
| + | Gen->Draw(); | ||
| + | Rec->Draw("same"); | ||
===scp to laptop=== | ===scp to laptop=== | ||
Latest revision as of 19:33, 27 April 2016
Detector Images
 |
| |
| No Events | Solenoid On with a proton and electron event |
Inclusive electron scattering
Sweet spot
Send electrons only at the center of a single sector.
<option name="BEAM_P" value="e-, 6.0*GeV, 25.0*deg, 0*deg"/>
<option name="SPREAD_P" value="4.0*GeV, 0*deg, 0*deg"/>
The generated plots are going to be centered at one point. For Theta that is 25 degrees. For Phi that is 0 degrees.
There are 323,066 generated events for no solenoid.
There are 573,362 generated events for solenoid on.
 |
| |
| Rec Phi Off | Rec Theta Off |
 |
| |
| Phi On Over Off | Theta On Over Off |
zoom in 24 < theta < 26 and -15 < phi < 15
 |
 |
| |
| Reconstructed with no solenoid | Reconstructed with solenoid | solenoid off divided by solenoid on |
zoom in like above and do efficiency plots like below for on/off solenoid
Inclusive Track Reconstruction efficiencies
Plot the reconstruction efficiency for an electron as a function of the angles Theta and Phi
I used the following: UBUNTU 14, coat-java-1.0
No Solenoid gcard:
angle spans 25 +/- 15
File:TS SolGcard 022916.txt
gcard for Solenoid
Solenoid Off
Question for Same Number of Events ran:Why is their a discrepancy between the number of events in solenoid vs no solenoid? I ran 975,000 events for both.
 |
 |
 |
|
| Generated with no solenoid. 824,979 Events | Reconstructed with no solenoid. 609,106 Events | reconstructed divided by generated with no solenoid 200 Bins, 40 Bins. | Zoomed in version of the efficiency. |
Solenoid On
 |
 |
 |
|
| Generated with solenoid. | Reconstructed with solenoid. | reconstructed divided by generated with solenoid. 80 Bins, 20 Bins. | Zoomed in version of the efficiency. |
Ratio Solenoid Off / On
NOTE: The reason the division is at around 5 is because for some reason there were 5x the amount of no solenoid events vs solenoid events. I ran 975,000 events for both no solenoid and solenoid, but a reasonable ~500,000 came out for no solenoid. For some reason only ~100,000 came out for solenoid.
directly divide reconstructed solenoid off by reconstructed solenoid on
No solenoid reconstructed divided by solenoid reconstructed.
 |
| |
| Bins 400 x 50. | Bins 3 x 1 . |
directly divide reconstructed solenoid off by reconstructed solenoid on that has been multiplied by (825/150)
Phi angle shift
Phi angle Solenoid on - off difference
spread from 0 to 5 GeV.
Observations
Why does the Solenoid off events only extend to 25 degrees whereas the solenoid on go to 40.
Vertex Reconstruction
Elastic Electrons from origin
Efficiency plots for Elasticlly scattered electrons when incident electron energy was 11 GeV
using the file ReconElasticExclusive_FromOrigin.LUND
Solenoid On
nohup gemc -USE_GUI=0 -INPUT_GEN_FILE="LUND,ReconElasticExclusive_FromOrigin.LUND" -N=75000 shift.gcard > /dev/null &
 |
 |
 |
| |
| Generated with solenoid. | Reconstructed with solenoid. | reconstructed divided by generated with solenoid. 16 Bins, 4 Bins. |
Elastics from Dual Target
Generated and reconstructed separate Plots of sqrt(Vx^2+Vy^2) -vs- Vz
With Beam rastering
Commands
Simulation commands
tcsh cd ~/src/CLAS/GEMC source setup cd experiments/eg12/lh2 gemc -HALL_MATERIAL="Vacuum" eg12.gcard gemc -USE_GUI=0 -HALL_MATERIAL="Vacuum" -N=10 eg12.gcard
to edit files
emacs -nw filename
without solenoid
~/src/CLAS/coatjava-1.0/bin/clas12-reconstruction -config DCHB::torus=1.0 -config DCHB::solenoid=0.0 -config DCTB::kalman=true -s DCHB:DCTB:EC:FTOF:EB -config DATA::mc=true -i eg12.ev -o eg12_rec.evio
with solenoid
~/src/CLAS/coatjava-1.0/bin/clas12-reconstruction -s FMT:DCHB:DCTB:FTOF:EC:EB -config MAG::fields=nomina -config DATA::mc=true -i eg12_5GeVe.evio -o eg12_rec.evio
evio analysis program
~/src/CLAS/coatjava-1.0/bin/run-groovy Analysis.groovy eg12_rec.0.evio
dump file contents
~/src/CLAS/coatjava-1.0/bin/evio-dump -i eg12_rec.0.evio
batch job cheat
nohup gemc -USE_GUI=0 -HALL_MATERIAL="Vacuum" -N=75000 eg12.gcard > /dev/null &
Analysis commands
cat Analysis.groovy Analysis.groovy.old1 Sim.dat > trash
Converting files to ROOT
~/src/CLAS/coatjava-1.0/bin/run-groovy Evio2Text.groovy eg12_rec.0.evio > Sim.dat
edit Sim.dat and remove the first few lines until you have only numbers
minerve2:~/src/CLAS/GEMC/experiments/eg12/lh2> root -l
root [0] .L Asci2Root.C
root [1] Asci2Root("Sim.dat");
Using ROOT to analyze a file
minerve2:~/src/CLAS/GEMC/experiments/eg12/lh2> root -l Sim.root
root [0] Attaching file Sim.root as _file0...
root [1] new TBrowser();
root [2] CLAS12Sim->Draw("evt.Theta");
root [3] CLAS12Sim->Draw("evt.Theta:evt.Phi");
root [4] CLAS12Sim->Draw("evt.Theta:evt.Phi","","colz");
root [5] TH2D *Rec=new TH2D("Rec","Rec",400,-200,200, 50, 0,50);
root [6] CLAS12Sim->Draw("evt.Theta:evt.Phi>>Rec","","colz");
root [7] TH2D *Gen=new TH2D("Gen","Gen",400,-200,200, 50, 0,50);
root [9] CLAS12Sim->Draw("evt.Theta:evt.Phi>>Gen","","colz");
root [10] Gen->Draw("colz")
root [11] Rec->Draw("colz")
root [12] Rec->Divide(Gen)
root [4] TH1D *RecPhi=new TH1D("RecPhi","RecPhi",400, -200,200);
root [5] CLAS12Sim->Draw("evt.Phi>>RecPhi");
root [5] CLAS12Sim->Draw("evt.Phi>>RecPhi","10");
go to Generated Events File
root [8] CLAS12Sim->Draw("evt.Phi>>GenPhi"); root [9] RecPhi->Divide(GenPhi);
return to ROOT file with reconstructed events and do
root [6] RecPhi->Divide(GenPhi); root [7] RecPhi->Draw();
TColor*col;
Int_t colors[3];
colors[0]=1;
colors[1]=2;
colors[2]=3;
gStyle->SetPalette(3,colors);
File Type Search:
find . -type f -name "*.txt"
CLAS12Sim->Draw("evt.Theta >> Gen(20,15,35)");
CLAS12Sim->Draw("evt.Theta >> Rec(20,15,35)");
Gen->Draw();
Rec->Draw("same");
scp to laptop
scp stoktyle@minerve2.cose.isu.edu:src/CLAS/GEMC/experiments/eg12/lh2/Sim.root ./