8 fftjet_large_int =
pow(2,31) - 1
11 fftjet_phi_to_eta_bw_ratio = 1.0
15 fftjet_insert_complete_event =
False
16 fftjet_complete_event_scale = 0.05
19 fftjet_standard_eta_range = 5.2
26 fftjet_grid_256_72 = cms.PSet(
27 nEtaBins = cms.uint32(256),
28 etaMin = cms.double(-11.136),
29 etaMax = cms.double(11.136),
30 nPhiBins = cms.uint32(72),
31 phiBin0Edge = cms.double(0.0),
32 title = cms.untracked.string(
"256 x 72")
35 fftjet_grid_192_72 = cms.PSet(
36 nEtaBins = cms.uint32(192),
37 etaMin = cms.double(-8.352),
38 etaMax = cms.double(8.352),
39 nPhiBins = cms.uint32(72),
40 phiBin0Edge = cms.double(0.0),
41 title = cms.untracked.string(
"192 x 72")
44 fftjet_grid_144_72 = cms.PSet(
45 nEtaBins = cms.uint32(144),
46 etaMin = cms.double(-6.264),
47 etaMax = cms.double(6.264),
48 nPhiBins = cms.uint32(72),
49 phiBin0Edge = cms.double(0.0),
50 title = cms.untracked.string(
"144 x 72")
53 fftjet_grid_128_72 = cms.PSet(
54 nEtaBins = cms.uint32(128),
55 etaMin = cms.double(-5.568),
56 etaMax = cms.double(5.568),
57 nPhiBins = cms.uint32(72),
58 phiBin0Edge = cms.double(0.0),
59 title = cms.untracked.string(
"128 x 72")
62 fftjet_grid_256_128 = cms.PSet(
63 nEtaBins = cms.uint32(256),
64 etaMin = cms.double(-2.0*math.pi),
65 etaMax = cms.double(2.0*math.pi),
66 nPhiBins = cms.uint32(128),
67 phiBin0Edge = cms.double(0.0),
68 title = cms.untracked.string(
"256 x 128")
71 fftjet_grid_512_256 = cms.PSet(
72 nEtaBins = cms.uint32(512),
73 etaMin = cms.double(-2.0*math.pi),
74 etaMax = cms.double(2.0*math.pi),
75 nPhiBins = cms.uint32(256),
76 phiBin0Edge = cms.double(0.0),
77 title = cms.untracked.string(
"512 x 256")
83 fftjet_anomalous_tower_default = anom.AnomalousCellParameters
85 fftjet_anomalous_tower_allpass = cms.PSet(
86 maxBadEcalCells = cms.uint32(fftjet_large_int),
87 maxRecoveredEcalCells = cms.uint32(fftjet_large_int),
88 maxProblematicEcalCells = cms.uint32(fftjet_large_int),
89 maxBadHcalCells = cms.uint32(fftjet_large_int),
90 maxRecoveredHcalCells = cms.uint32(fftjet_large_int),
91 maxProblematicHcalCells = cms.uint32(fftjet_large_int)
97 fftjet_peak_selector_allpass = cms.PSet(
98 Class = cms.string(
"AllPeaksPass")
107 fftjet_patreco_scales_50 = cms.PSet(
108 Class = cms.string(
"EquidistantInLogSpace"),
109 minScale = cms.double(0.087),
110 maxScale = cms.double(0.6),
111 nScales = cms.uint32(50)
118 fftjet_patreco_scales_64 = cms.PSet(
119 Class = cms.string(
"EquidistantInLogSpace"),
120 minScale = cms.double(0.05),
121 maxScale = cms.double(0.6),
122 nScales = cms.uint32(64)
131 fftjet_patreco_scales_3_at_010 = cms.PSet(
132 Class = cms.string(
"EquidistantInLogSpace"),
133 minScale = cms.double(0.10/1.04),
134 maxScale = cms.double(0.10*1.04),
135 nScales = cms.uint32(3)
137 fftjet_patreco_scales_3_at_015 = cms.PSet(
138 Class = cms.string(
"EquidistantInLogSpace"),
139 minScale = cms.double(0.15/1.04),
140 maxScale = cms.double(0.15*1.04),
141 nScales = cms.uint32(3)
143 fftjet_patreco_scales_3_at_017 = cms.PSet(
144 Class = cms.string(
"EquidistantInLogSpace"),
145 minScale = cms.double(0.17/1.04),
146 maxScale = cms.double(0.17*1.04),
147 nScales = cms.uint32(3)
149 fftjet_patreco_scales_3_at_020 = cms.PSet(
150 Class = cms.string(
"EquidistantInLogSpace"),
151 minScale = cms.double(0.20/1.04),
152 maxScale = cms.double(0.20*1.04),
153 nScales = cms.uint32(3)
155 fftjet_patreco_scales_3_at_025 = cms.PSet(
156 Class = cms.string(
"EquidistantInLogSpace"),
157 minScale = cms.double(0.25/1.04),
158 maxScale = cms.double(0.25*1.04),
159 nScales = cms.uint32(3)
161 fftjet_patreco_scales_3_at_050 = cms.PSet(
162 Class = cms.string(
"EquidistantInLogSpace"),
163 minScale = cms.double(0.50/1.04),
164 maxScale = cms.double(0.50*1.04),
165 nScales = cms.uint32(3)
175 fftjet_fixed_bandwidth_distance = cms.PSet(
176 Class = cms.string(
"PeakEtaPhiDistance"),
177 etaToPhiBandwidthRatio = cms.double(1.0/fftjet_phi_to_eta_bw_ratio)
186 fftjet_variable_bandwidth_distance = cms.PSet(
187 Class = cms.string(
"PeakEtaDependentDistance"),
188 Interpolator = cms.PSet(
189 xmin = cms.double(-5.2),
190 xmax = cms.double(5.2),
191 flow = cms.double(1.0),
192 fhigh = cms.double(1.0),
193 data = cms.vdouble(1.0, 1.0)
200 fftjet_jet_membership_cone = cms.PSet(
201 Class = cms.string(
"Linear2d"),
202 sx = cms.double(math.sqrt(1.0/fftjet_phi_to_eta_bw_ratio)),
203 sy = cms.double(math.sqrt(fftjet_phi_to_eta_bw_ratio)),
204 scalePower = cms.int32(1),
205 kernelParameters = cms.vdouble()
211 fftjet_noise_membership_smallconst = cms.PSet(
212 Class = cms.string(
"GaussianNoiseMembershipFcn"),
213 minWeight = cms.double(1.0e-8),
214 prior = cms.double(0.0)
220 fftjet_convergence_jet_distance = cms.PSet(
221 Class = cms.string(
"JetConvergenceDistance"),
222 etaToPhiBandwidthRatio = cms.double(1.0/fftjet_phi_to_eta_bw_ratio),
223 relativePtBandwidth = cms.double(1.0)
229 fftjet_peakfunctor_const_zero = cms.PSet(
230 Class = cms.string(
"ConstDouble"),
231 value = cms.double(0.0)
234 fftjet_peakfunctor_const_one = cms.PSet(
235 Class = cms.string(
"ConstDouble"),
236 value = cms.double(1.0)
Power< A, B >::type pow(const A &a, const B &b)