source: trunk/Mars/resmc/hawcseye/ceres.rc@ 20063

Last change on this file since 20063 was 19922, checked in by tbretz, 5 years ago
New Pulse shape and corresponding gain as providedby Giang.
File size: 15.4 KB
Line 
1# ==========================================================================
2#############################################################################
3# ==========================================================================
4# General
5# ==========================================================================
6#############################################################################
7# ==========================================================================
8
9# -------------------------------------------------------------------------
10# Use this if you want to setup the logging stream for the jobs
11# (overwrites command line options)
12# -------------------------------------------------------------------------
13MLog.VerbosityLevel: 4
14#MLog.DebugLevel: 1
15#MLog.NoColors: yes
16
17# ==========================================================================
18############################################################################
19# ==========================================================================
20# Ceres
21# ==========================================================================
22############################################################################
23# ==========================================================================
24
25# -------------------------------------------------------------------------
26# Use this if you want to write the MJStar output somewhere
27# If you don't want it, it is written to the calibration output anyhow.
28# -------------------------------------------------------------------------
29#PathOut: ceres_output/
30#PathIn: ceres_input/
31
32
33# -------------------------------------------------------------------------
34# Configure Eventloop
35# -------------------------------------------------------------------------
36#MaxEvents: 10000
37#Overwrite: yes,no
38
39
40# -------------------------------------------------------------------------
41# Use this to setup binnings. For more details see: MBinning::ReadEnv
42# -------------------------------------------------------------------------
43# BinningEnergy.Raw: 100 1 100000 log
44# BinningSize.Raw: 100 1 10000000 log
45BinningImpact.Raw: 40 0 400
46# BinningHeight.Raw: 50 0 12
47# BinningAz.Raw: 360 -360 360
48# BinningZd.Raw: 70 0 70
49BinningViewCone.Raw: 32 0 8
50BinningTrigPos.Raw: 100 -5 45
51BinningTotLength.Raw: 150 0 150
52# BinningEvtWidth.Raw: 150 0 25
53# BinningDist.Raw: 100 0 2.5
54# BinningDistC.Raw: 100 0 2.5
55# BinningThreshold.Raw: 35 0.9 90000 log
56# BinningEnergyEst.Raw: 100 0.9 90000 log
57
58#BinningAlpha.Raw: 36 0 90
59BinningWidth.Raw: 50 0 3
60BinningLength.Raw: 25 0 3
61BinningDist.Raw: 25 0 15
62
63# Note that you might not exactly get this binning limit as
64# the limits are internally optimized (or to have N bins of size 1)
65HPhotonEventGround.MaxImpact: 250
66
67# -------------------------------------------------------------------------
68# Initialize random number generator (see MJob::InitRandomNumberGenerator)
69# -------------------------------------------------------------------------
70RandomNumberGenerator: TRandom3
71#RandomNumberSeedValue: 0
72
73
74MRead.CorsikaInputCard: <your-corsika-input-card>
75
76# -------------------------------------------------------------------------
77# Ceres general setup
78# -------------------------------------------------------------------------
79
80# Switch off the camera "electronics"
81#Camera: Off
82
83# Force the use of the "hardware" trigger for calibration data
84#ForceTrigger: Yes
85
86
87# -------------------------------------------------------------------------
88# Some setup for the atmosphere. The default should be well suited.
89# -------------------------------------------------------------------------
90#MSimAtmosphere.FileAerosols: resmc/fact/atmopshere-aerosols.txt
91#MSimAtmosphere.FileOzone: resmc/fact/atmopshere-ozone.txt
92
93
94# -------------------------------------------------------------------------
95# Here you can control the poiting of the telescope. To switch on
96# off-target observations set a value for the distance !=0 [deg].
97# For details see MSimPointingPos
98# -------------------------------------------------------------------------
99#MSimPointingPos.OffTargetDistance: 0.6
100#MSimPointingPos.OffTargetPhi: -1
101
102
103# -------------------------------------------------------------------------
104# Setup the optics
105# -------------------------------------------------------------------------
106#Reflector.Constructor: MReflector();
107Reflector.Constructor: MFresnelLens();
108
109# -------------------------------------------------------------------------
110# Note that this is the setup for the 'Reflector' being MFresnelLens
111Reflector.Transmission.FileName: resmc/hawcseye/transmission-pmma-3mm.txt
112Reflector.Transmission.Thickness: 0.3
113Reflector.Transmission.FresnelCorrection: true
114#Reflector.SurfaceRoughness: 0.001
115
116# -------------------------------------------------------------------------
117# Note that this is the setup for the 'Reflector' being MReflector
118
119# For the file definition see MReflector::ReadFile
120Reflector.FileName: resmc/hawcseye/fake-reflector.txt
121# Units mm: ~0.02°
122#Reflector.SetSigmaPSF: 1.8
123# Units mm: ~0.03°
124#Reflector.SetSigmaPSF: 2.6
125#Reflector.SetSigmaPSF: 1.66
126
127# new Value from 7.12.2012:
128# 0.95 of the reflected light was inside a circle with a radius of 2.25mm.
129# This corresponds to a SigmaPSF of 1.3 mm
130# This value is based on a direct measurement of the mirrors. There
131# is no way it can be wrong. Only the ray-tracing algorithm could be wrong.
132Reflector.SetSigmaPSF: 2
133
134# --- DWARF ---
135# distance from mirror to camera [cm]
136#focal_distance 489.73
137# TRUE focal of the paraboloid (must correspond to that of the mirror positions defined below!)
138#paraboloid_focal 488.87
139
140# -------------------------------------------------------------------------
141# Setup the camera geometry
142# -------------------------------------------------------------------------
143
144#MGeomCam.Constructor: MGeomCamDwarf(189.8, 9.5, 4.8887);
145MGeomCam.Constructor: MGeomCamFAMOUS(0.502,false);
146
147#MSimBundlePhotons.FileName: resmc/fact/dwarf-fact.txt
148
149# -------------------------------------------------------------------------
150# Setup the sensors
151# -------------------------------------------------------------------------
152
153# Set the APD type (1: 30x30 <default>, 2: 60x60, 3:60x60(ct=15%))
154MSimAPD.Type: 5
155
156#MSimAPD.Type: 0
157#MSimAPD.NumCells: 60
158#MSimAPD.DeadTime: 3.0
159#MSimAPD.RecoveryTime: 8.75
160#MSimAPD.CrosstalkCoefficient: 0.1
161#MSimAPD.AfterpulseProb1: 0.14
162#MSimAPD.AfterpulseProb2: 0.11
163
164MSimExcessNoise.ExcessNoise: 0.096
165
166# -------------------------------------------------------------------------
167# Setup the absorption, conversion efficiency and angular acceptance
168# -------------------------------------------------------------------------
169# Note that all four curves enter the calculation of the background rate
170# but not necessarily all are applied!
171
172#MirrorReflectivity.FileName: /home/fact_opr/mc_configuration_files/setup/ceres/030/MirrorReflectivity_Lustermann_FACT_bearbeitet.txt
173#PhotonDetectionEfficiency.FileName: /home/fact_opr/mc_configuration_files/setup/ceres/030/fact-pde-1.4V.txt
174#ConesAngularAcceptance.FileName: /home/fact_opr/mc_configuration_files/setup/ceres/030/fact-cones-angular-acceptance.txt
175#ConesTransmission.FileName: /home/fact_opr/mc_configuration_files/setup/ceres/030/Transmittance_1439Cones_FACT_bearbeitet.txt
176
177#FIXME: This should be 2.5mm
178#MirrorReflectivity.FileName: resmc/hawcseye/transmission-pmma-3mm.txt
179MirrorReflectivity.FileName: resmc/hawcseye/transmittance_lens.txt
180
181#FIXME: This should be Hamamatsu/SensL
182#PhotonDetectionEfficiency.FileName: resmc/hawcseye/pde.txt
183PhotonDetectionEfficiency.FileName: resmc/hawcseye/pde_SensL.txt
184
185#FIXME: Calculate for our aluminium and PMMA cones (this is for FACT cones)
186#ConesAngularAcceptance.FileName: resmc/hawcseye/cones-angular-acceptance.txt
187ConesAngularAcceptance.FileName: resmc/hawcseye/angular_acceptance_cone.txt
188
189#FIXME: Calculate for our cones
190#ConesTransmission.FileName: resmc/fact/Transmittance_1439Cones_FACT_bearbeitet.txt
191ConesTransmission.FileName: resmc/hawcseye/transmittance_cone.txt
192
193# Skipped otherwise due to CEFFIC option
194# We use CEFFIC only for the atmosphere!
195SimPhotonDetectionEfficiency.Force: Yes
196SimMirrorReflectivity.Force: Yes
197SimConesTransmission.Force: Yes
198
199# A backward motivated overall PDE adjustment.
200# Introduced by Fabian T. to produce the ICRC2015 Crab spectrum.
201
202AdditionalPhotonAcceptance.Function.Name: 0.8
203AdditionalPhotonAcceptance.Function.Npx: 100
204AdditionalPhotonAcceptance.Function.Xmin: 290
205AdditionalPhotonAcceptance.Function.Xmax: 900
206
207# -------------------------------------------------------------------------
208# Setup what in MMCS would be called "additional spot size"
209# -------------------------------------------------------------------------
210#MSimPSF.Sigma: -1
211#MSimReflector.DetectorMargin: 0
212
213# -------------------------------------------------------------------------
214# Setup the dark counts (FrequencyFixed) and the NSB noise per cm^2
215# -------------------------------------------------------------------------
216# Turn off some checks: ONLY(!!!) for testing purposes
217MSimRandomPhotons.Force: Yes
218# Dark Counts per APD: ~4MHz
219#MSimRandomPhotons.FrequencyFixed: 0.004
220# NSB photon rate per cm^2 ~40MHz (folded with the cones' angular
221# acceptance and the wavelength acceptance of the camera (window, apd, etc)
222# 0.040 1/ns/cm^2 NSB-rate:
223#MSimRandomPhotons.FrequencyNSB: 0.025
224
225MSimRandomPhotons.FileNameNSB: resmc/night-sky-la-palma.txt
226MSimRandomPhotons.FrequencyNSB: 0.0
227
228# FIXME: With a class describing the cones we could give NSB as
229# per sr and cm^2
230
231# -------------------------------------------------------------------------
232# Setup the trigger
233# -------------------------------------------------------------------------
234# This line could be omitted but then the discriminator would be
235# evaluated for all pixels not just for the pixels which are
236# later "connected" in the trigger (used in the coincidence map)
237# MSimTrigger.FileNameRouteAC: resmc/fact/magic-trigger-1NN.txt
238
239MSimTrigger.FileNameRouteAC: resmc/hawcseye/trigger.txt
240
241# DiscriminatorThreshold is in arbitrary units
242# This is the FACT default
243#MSimTrigger.DiscriminatorThreshold: -192.387
244# This is optimized to trigger not more than 1 out of 1000 simulated pedestal events
245MSimTrigger.DiscriminatorThreshold: 700 # The units correspond to DRS4 ADC counts (FIXME: Conversion to DAC cnts)
246
247# In FACT: 300 DAC counts are roughly 21pe. 1pe is roughly 10 mV / 20 ADC counts (see MSimCamera.DefaultGain)
248# Therefore, the conversion from ADC to DAC is therefore (300/21.)/22.553 = 0.63
249# A simulated DiscriminatorThreshold or 700 therefore corresponds to a DAC threshold of about 450
250
251# Note that this is in SAMPLES! I have taken the values from the SW trigger
252MSimTrigger.CableDelay: 21
253MSimTrigger.CableDamping: -0.96
254MSimTrigger.CoincidenceTime: 0.5
255
256# The baseline shift (unfortunately -- as well as the A/C coupling!) is already added
257# before the trigger electornics to the signal. If the sum-trigger is calculated,
258# the baseline is summed as N*pixels - 0.96*N*pixels and therefore shifts indiviudally
259# according to the number of pixels in a patch (I believe that this is wrong).
260# Therefore, this effect can be correct be a shift of N*(1-0.96)
261MSimTrigger.ShiftBaseline: Yes
262
263# Setting this resource allows to copy the sum signal back to the source pixels
264# so that instead of the original signal, the sum-signal is digitzed in the eleotronics
265#MSimTrigger.DebugTrigger: Yes
266
267# Use this to turn off the trigger electronics. A trigger is always issued.
268#MSimTrigger.SimulateElectronics: No
269
270# Every Pixel(!) should see the same signal independant of its size
271MSimCalibrationSignal.NumPhotons: 24
272MSimCalibrationSignal.NumEvents: 1000
273
274# This is an unfortunate naming convention. A better name would be "IntendedTriggerPos"
275# This is in nano-seconds (Mars-new) to be independent of the sampling frequency
276IntendedPulsePos.Val: 140
277
278#PulseShape.Function.Name: exp(-(x/2)^2/2)
279#PulseShape.FileName: resmc/fact/dwarf-pulse.txt
280
281# -------------------------------------------------------------------------
282# Description how a pedestal/calibration signal is produced
283# -------------------------------------------------------------------------
284
285#MSimCalibrationSignal.NumEvents: 1000
286#MSimCalibrationSignal.NumPhotons: 5
287#MSimCalibrationSignal.TimeJitter: 1.0
288
289
290# -------------------------------------------------------------------------
291# Setup the FADC
292# -------------------------------------------------------------------------
293
294MRawRunHeader.SamplingFrequency: 2000
295MRawRunHeader.NumSamples: 1024
296MRawRunHeader.NumBytesPerSample: 2
297MRawRunHeader.FadcResolution: 12
298
299MSimCamera.DefaultOffset: -1850.0 # ADC counts
300MSimCamera.DefaultNoise: 2.8125 # ADC counts
301MSimCamera.DefaultGain: 17.557 # Conversion for the pulse to ADC counts
302
303# Value for the fudgefactor in the calculation of the accoupling:
304# FIXME: If I am not mistaken, the time constant is in us ... to be checked
305MSimCamera.ACFudgeFactor: 0.3367
306MSimCamera.ACTimeConstant: 20
307
308#MSimReadout.fConversionFactor: 1
309
310# The number of sampling points is almost irrelevant because they
311# are equidistant, i.e. calculated and no search is necessary.
312# Nevertheless, you must make sure that there are enough points
313# to sample the function accuratly enough.
314# Attention: x in the function is given in slices, so if you change the sampling
315# frequency you have to change also this function
316PulseShape.Function.Name: 1.078*(1-1/(1+exp((0.5*x-2.4)/1.2)))*exp(-(0.5*x-2.4)/84)
317
318#PulseShape.Function.Name: (1.1121*(1-1/(1+exp((0.5*x-4.0263)/1.063)))*exp(-(0.5*x-4.0263)/48.))
319#PulseShape.Function.Name: (1.239*(1-1/(1+exp((0.5*x-2.851)/1.063)))*exp(-(0.5*x-2.851)/19.173))
320#PulseShape.Function.Name: (1.239*(1-1/(1+exp((0.5*x-2.851)/1.5)))*exp(-(0.5*x-2.851)/80.3))
321#PulseShape.Function.Npx: 310
322#PulseShape.Function.Xmin: -10
323#PulseShape.Function.Xmax: 300
324PulseShape.Function.Npx: 725
325PulseShape.Function.Xmin: -25
326PulseShape.Function.Xmax: 700
327#PulseShape.Function.Name: (1.626*(1-exp(-0.3803*0.5*x))*exp(-0.0649*0.5*x))
328#PulseShape.Function.Npx: 900
329#PulseShape.Function.Xmin: 0
330#PulseShape.Function.Xmax: 300
331
332# -------------------------------------------------------------------------
333# Setup an image cleaning on the pure gamma signal (without noise)
334# -------------------------------------------------------------------------
335
336#MImgCleanStd.CleanLevel1: 6.0
337#MImgCleanStd.CleanLevel2: 6.0
338
339# -------------------------------------------------------------------------
340# This is a cut executed after the calculation of the image parameters
341# -------------------------------------------------------------------------
342Cut.Inverted: Yes
343
344#Cut.Condition: MNewImagePar.fNumUsedPixels>3 && MHillas.fSize>6
345Cut.Condition: MHillas.fSize>10
346#&& MHillas.fSize>30
347#MSimTrigger.SimulateElectronics: Off
348
349# Does not trigger anyway
350ContEmpty3.Condition: MPhotonEvent.GetNumPhotons<10
351
352# Take a fixed position in the camera.... for now!
353MSrcPosCalc.FixedPos: 0 0
354
355MFixTimeOffset.FileName: resmc/fact/pixel_delays_ALL_ZERO.csv
356# MFixTimeOffset.FileName: resmc/fact/AllPhidoFiles_delays.csv
357
358ResidualTimeSpread.Val: 0.0
359GapdTimeJitter.Val: 1.5
360
361# last line comment
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