1 import FWCore.ParameterSet.Config
as cms
5 hcalSimParameters = cms.PSet(
14 readoutFrameSize = cms.int32(4),
15 binOfMaximum = cms.int32(3),
16 samplingFactor = cms.double(0.383),
17 doPhotoStatistics = cms.bool(
True),
18 photoelectronsToAnalog = cms.double(2.79),
19 simHitToPhotoelectrons = cms.double(6.0),
20 syncPhase = cms.bool(
True),
21 timePhase = cms.double(14.0),
22 doSiPMSmearing = cms.bool(
False),
23 sipmTau = cms.double(0.),
26 readoutFrameSize = cms.int32(4),
27 binOfMaximum = cms.int32(3),
28 samplingFactor = cms.double(0.368),
29 doPhotoStatistics = cms.bool(
True),
30 photoelectronsToAnalog = cms.double(1.843),
31 simHitToPhotoelectrons = cms.double(6.0),
32 syncPhase = cms.bool(
True),
33 timePhase = cms.double(13.0),
34 doSiPMSmearing = cms.bool(
False),
35 sipmTau = cms.double(0.),
38 readoutFrameSize = cms.int32(10),
39 firstRing = cms.int32(1),
40 binOfMaximum = cms.int32(5),
41 doPhotoStatistics = cms.bool(
True),
42 simHitToPhotoelectrons = cms.double(4000.0),
43 samplingFactors = cms.vdouble(231.0, 231.0, 231.0, 231.0,
44 360.0, 360.0, 360.0, 360.0, 360.0, 360.0,
45 360.0, 360.0, 360.0, 360.0, 360.0),
46 syncPhase = cms.bool(
True),
47 timePhase = cms.double(5.0),
48 timeSmearing = cms.bool(
False),
50 siPMCode = cms.int32(2),
51 doSiPMSmearing = cms.bool(
False),
52 sipmTau = cms.double(5.),
55 readoutFrameSize = cms.int32(10),
56 firstRing = cms.int32(1),
57 binOfMaximum = cms.int32(5),
58 doPhotoStatistics = cms.bool(
True),
59 simHitToPhotoelectrons = cms.double(2000.0),
60 samplingFactors = cms.vdouble(
61 125.44, 125.54, 125.32, 125.13, 124.46,
62 125.01, 125.22, 125.48, 124.45, 125.90,
63 125.83, 127.01, 126.82, 129.73, 131.83,
65 syncPhase = cms.bool(
True),
66 timePhase = cms.double(6.0),
67 timeSmearing = cms.bool(
True),
68 doSiPMSmearing = cms.bool(
False),
69 sipmTau = cms.double(0.),
72 readoutFrameSize = cms.int32(10),
73 firstRing = cms.int32(16),
74 binOfMaximum = cms.int32(5),
75 doPhotoStatistics = cms.bool(
True),
76 simHitToPhotoelectrons = cms.double(2000.0),
77 samplingFactors = cms.vdouble(
78 210.55, 197.93, 186.12, 189.64, 189.63,
79 190.28, 189.61, 189.60, 190.12, 191.22,
80 190.90, 193.06, 188.42, 188.42),
81 syncPhase = cms.bool(
True),
82 timePhase = cms.double(6.0),
83 timeSmearing = cms.bool(
True),
84 doSiPMSmearing = cms.bool(
False),
85 sipmTau = cms.double(0.),
88 readoutFrameSize = cms.int32(10),
89 binOfMaximum = cms.int32(5),
90 samplingFactor = cms.double(1.000),
91 doPhotoStatistics = cms.bool(
True),
92 photoelectronsToAnalog = cms.double(1.843),
93 simHitToPhotoelectrons = cms.double(6.0),
94 syncPhase = cms.bool(
True),
95 timePhase = cms.double(-4.0),
96 doSiPMSmearing = cms.bool(
False),
97 sipmTau = cms.double(0.),
101 hcalSimParameters.hoZecotek = hcalSimParameters.ho.clone()
103 hcalSimParameters.hoHamamatsu = hcalSimParameters.ho.clone()
106 from Configuration.Eras.Modifier_run2_common_cff
import run2_common
107 run2_common.toModify( hcalSimParameters,
109 siPMCode = cms.int32(1)
111 hf1 =
dict( samplingFactor = cms.double(0.335) ),
112 hf2 =
dict( samplingFactor = cms.double(0.335) )
115 from Configuration.Eras.Modifier_run2_HE_2017_cff
import run2_HE_2017
116 run2_HE_2017.toModify( hcalSimParameters,
118 doSiPMSmearing = cms.bool(
True),
119 sipmTau = cms.double(10.),
123 from Configuration.Eras.Modifier_run2_HF_2017_cff
import run2_HF_2017
124 run2_HF_2017.toModify( hcalSimParameters,
126 readoutFrameSize = cms.int32(3),
127 binOfMaximum = cms.int32(2)
130 readoutFrameSize = cms.int32(3),
131 binOfMaximum = cms.int32(2)
135 from Configuration.Eras.Modifier_run2_HB_2018_cff
import run2_HB_2018
136 run2_HB_2018.toModify( hcalSimParameters,
138 readoutFrameSize = cms.int32(8),
139 binOfMaximum = cms.int32(4)
142 from Configuration.Eras.Modifier_run2_HE_2018_cff
import run2_HE_2018
143 run2_HE_2018.toModify( hcalSimParameters,
145 readoutFrameSize = cms.int32(8),
146 binOfMaximum = cms.int32(4)
151 from Configuration.Eras.Modifier_run3_HB_cff
import run3_HB
152 run3_HB.toModify( hcalSimParameters,
154 doSiPMSmearing = cms.bool(
True),
155 sipmTau = cms.double(10.),
159 _newFactors = cms.vdouble(
160 210.55, 197.93, 186.12, 189.64, 189.63,
161 189.96, 190.03, 190.11, 190.18, 190.25,
162 190.32, 190.40, 190.47, 190.54, 190.61,
163 190.69, 190.83, 190.94, 190.94, 190.94,
164 190.94, 190.94, 190.94, 190.94, 190.94,
165 190.94, 190.94, 190.94, 190.94, 190.94,
166 190.94, 190.94, 190.94, 190.94, 190.94,
167 190.94, 190.94, 190.94, 190.94, 190.94,
168 190.94, 190.94, 190.94, 190.94, 190.94,
169 190.94, 190.94, 190.94, 190.94, 190.94,
170 190.94, 190.94, 190.94, 190.94, 190.94,
171 190.94, 190.94, 190.94, 190.94, 190.94,
172 190.94, 190.94, 190.94, 190.94, 190.94,
173 190.94, 190.94, 190.94, 190.94, 190.94,
174 190.94, 190.94, 190.94, 190.94, 190.94,
175 190.94, 190.94, 190.94, 190.94, 190.94,
176 190.94, 190.94, 190.94, 190.94, 190.94 )
178 from Configuration.Eras.Modifier_phase2_hcal_cff
import phase2_hcal
179 phase2_hcal.toModify( hcalSimParameters,
181 samplingFactors = _newFactors,