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source: git/cards/CLICdet/CLICdet_JetScale_1500.tcl@ f9aa59d

ImprovedOutputFile Timing dual_readout llp
Last change on this file since f9aa59d was 7a1e27d, checked in by Ulrike Schnoor <ulrike.schnoor@…>, 7 years ago

split up in three cards for the three energy stages

  • Property mode set to 100644
File size: 14.9 KB
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1module EnergyScale JetEnergyScale_VLCR05N2 {
2 set InputArray JetMomentumSmearing_VLCR05N2/JER_VLCjetsR05N2
3 set OutputArray JES_VLCjetsR05N2
4
5 # Scale Formula
6 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05)}
7}
8module EnergyScale JetEnergyScale_VLCR05N3 {
9 set InputArray JetMomentumSmearing_VLCR05N3/JER_VLCjetsR05N3
10 set OutputArray JES_VLCjetsR05N3
11 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
12}
13module EnergyScale JetEnergyScale_VLCR05N4 {
14 set InputArray JetMomentumSmearing_VLCR05N4/JER_VLCjetsR05N4
15 set OutputArray JES_VLCjetsR05N4
16 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
17}
18module EnergyScale JetEnergyScale_VLCR05N5 {
19 set InputArray JetMomentumSmearing_VLCR05N5/JER_VLCjetsR05N5
20 set OutputArray JES_VLCjetsR05N5
21 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
22}
23module EnergyScale JetEnergyScale_VLCR05N6 {
24 set InputArray JetMomentumSmearing_VLCR05N6/JER_VLCjetsR05N6
25 set OutputArray JES_VLCjetsR05N6
26 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
27}
28module EnergyScale JetEnergyScale_VLCR05_inclusive {
29 set InputArray JetMomentumSmearing_VLCR05_inclusive/JER_VLCjetsR05_inclusive
30 set OutputArray JES_VLCjetsR05_inclusive
31 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
32}
33module EnergyScale JetEnergyScale_VLCR07N2 {
34 set InputArray JetMomentumSmearing_VLCR07N2/JER_VLCjetsR07N2
35 set OutputArray JES_VLCjetsR07N2
36 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
37}
38module EnergyScale JetEnergyScale_VLCR07N3 {
39 set InputArray JetMomentumSmearing_VLCR07N3/JER_VLCjetsR07N3
40 set OutputArray JES_VLCjetsR07N3
41 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
42}
43module EnergyScale JetEnergyScale_VLCR07N4 {
44 set InputArray JetMomentumSmearing_VLCR07N4/JER_VLCjetsR07N4
45 set OutputArray JES_VLCjetsR07N4
46 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
47}
48module EnergyScale JetEnergyScale_VLCR07N5 {
49 set InputArray JetMomentumSmearing_VLCR07N5/JER_VLCjetsR07N5
50 set OutputArray JES_VLCjetsR07N5
51 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
52}
53module EnergyScale JetEnergyScale_VLCR07N6 {
54 set InputArray JetMomentumSmearing_VLCR07N6/JER_VLCjetsR07N6
55 set OutputArray JES_VLCjetsR07N6
56 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
57}
58module EnergyScale JetEnergyScale_VLCR07_inclusive {
59 set InputArray JetMomentumSmearing_VLCR07_inclusive/JER_VLCjetsR07_inclusive
60 set OutputArray JES_VLCjetsR07_inclusive
61 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
62}
63module EnergyScale JetEnergyScale_VLCR10N2 {
64 set InputArray JetMomentumSmearing_VLCR10N2/JER_VLCjetsR10N2
65 set OutputArray JES_VLCjetsR10N2
66 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
67}
68module EnergyScale JetEnergyScale_VLCR10N3 {
69 set InputArray JetMomentumSmearing_VLCR10N3/JER_VLCjetsR10N3
70 set OutputArray JES_VLCjetsR10N3
71 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
72}
73module EnergyScale JetEnergyScale_VLCR10N4 {
74 set InputArray JetMomentumSmearing_VLCR10N4/JER_VLCjetsR10N4
75 set OutputArray JES_VLCjetsR10N4
76 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
77}
78module EnergyScale JetEnergyScale_VLCR10N5 {
79 set InputArray JetMomentumSmearing_VLCR10N5/JER_VLCjetsR10N5
80 set OutputArray JES_VLCjetsR10N5
81 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
82}
83module EnergyScale JetEnergyScale_VLCR10N6 {
84 set InputArray JetMomentumSmearing_VLCR10N6/JER_VLCjetsR10N6
85 set OutputArray JES_VLCjetsR10N6
86 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
87}
88module EnergyScale JetEnergyScale_VLCR10_inclusive {
89 set InputArray JetMomentumSmearing_VLCR10_inclusive/JER_VLCjetsR10_inclusive
90 set OutputArray JES_VLCjetsR10_inclusive
91 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
92}
93module EnergyScale JetEnergyScale_VLCR12N2 {
94 set InputArray JetMomentumSmearing_VLCR12N2/JER_VLCjetsR12N2
95 set OutputArray JES_VLCjetsR12N2
96 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
97}
98module EnergyScale JetEnergyScale_VLCR12N3 {
99 set InputArray JetMomentumSmearing_VLCR12N3/JER_VLCjetsR12N3
100 set OutputArray JES_VLCjetsR12N3
101 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
102}
103module EnergyScale JetEnergyScale_VLCR12N4 {
104 set InputArray JetMomentumSmearing_VLCR12N4/JER_VLCjetsR12N4
105 set OutputArray JES_VLCjetsR12N4
106 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
107}
108module EnergyScale JetEnergyScale_VLCR12N5 {
109 set InputArray JetMomentumSmearing_VLCR12N5/JER_VLCjetsR12N5
110 set OutputArray JES_VLCjetsR12N5
111 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
112}
113module EnergyScale JetEnergyScale_VLCR12N6 {
114 set InputArray JetMomentumSmearing_VLCR12N6/JER_VLCjetsR12N6
115 set OutputArray JES_VLCjetsR12N6
116 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
117}
118module EnergyScale JetEnergyScale_VLCR12_inclusive {
119 set InputArray JetMomentumSmearing_VLCR12_inclusive/JER_VLCjetsR12_inclusive
120 set OutputArray JES_VLCjetsR12_inclusive
121 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
122}
123module EnergyScale JetEnergyScale_VLCR15N2 {
124 set InputArray JetMomentumSmearing_VLCR15N2/JER_VLCjetsR15N2
125 set OutputArray JES_VLCjetsR15N2
126 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
127}
128module EnergyScale JetEnergyScale_VLCR15N3 {
129 set InputArray JetMomentumSmearing_VLCR15N3/JER_VLCjetsR15N3
130 set OutputArray JES_VLCjetsR15N3
131 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
132}
133module EnergyScale JetEnergyScale_VLCR15N4 {
134 set InputArray JetMomentumSmearing_VLCR15N4/JER_VLCjetsR15N4
135 set OutputArray JES_VLCjetsR15N4
136 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
137}
138module EnergyScale JetEnergyScale_VLCR15N5 {
139 set InputArray JetMomentumSmearing_VLCR15N5/JER_VLCjetsR15N5
140 set OutputArray JES_VLCjetsR15N5
141 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
142}
143module EnergyScale JetEnergyScale_VLCR15N6 {
144 set InputArray JetMomentumSmearing_VLCR15N6/JER_VLCjetsR15N6
145 set OutputArray JES_VLCjetsR15N6
146 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
147}
148module EnergyScale JetEnergyScale_VLCR15_inclusive {
149 set InputArray JetMomentumSmearing_VLCR15_inclusive/JER_VLCjetsR15_inclusive
150 set OutputArray JES_VLCjetsR15_inclusive
151 set ScaleFormula { (abs(eta) < 0.76) * ( 1.0 ) + (abs(eta) >= 0.76 ) * (1.05) }
152}
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