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SiPixelPhase1Clusters_cfi.py
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1 import FWCore.ParameterSet.Config as cms
2 from DQMServices.Core.DQMEDHarvester import DQMEDHarvester
4 import DQM.SiPixelPhase1Common.TriggerEventFlag_cfi as trigger
5 
6 SiPixelPhase1ClustersCharge = DefaultHistoDigiCluster.clone(
7  name = "charge",
8  title = "Cluster Charge",
9  range_min = 0, range_max = 300e3, range_nbins = 150,
10  xlabel = "Charge (electrons)",
11 
12  specs = VPSet(
13  StandardSpecification2DProfile,
14  StandardSpecificationPixelmapProfile,
15  StandardSpecificationTrend,
16  StandardSpecifications1D,
17  StandardSpecificationTrend2D
18  )
19 )
20 
21 SiPixelPhase1ClustersBigPixelCharge = DefaultHistoDigiCluster.clone(
22  name = "bigpixelcharge",
23  title = "Big Pixel Charge",
24  range_min = 0, range_max = 80e3, range_nbins = 100,
25  xlabel = "Charge (electrons)",
26 
27  specs = VPSet(
28  Specification().groupBy("PXBarrel").save(),
29  Specification().groupBy("PXForward").save(),
30  Specification().groupBy("PXBarrel/PXLayer").save(),
31  Specification().groupBy("PXForward/PXDisk").save()
32  )
33 )
34 
35 SiPixelPhase1ClustersNotBigPixelCharge = DefaultHistoDigiCluster.clone(
36  name = "notbigpixelcharge",
37  title = "Not Big Pixel Charge",
38  range_min = 0, range_max = 80e3, range_nbins = 100,
39  xlabel = "Charge (electrons)",
40  enabled=False,
41 
42  specs = VPSet(
43  Specification().groupBy("PXBarrel").save(),
44  Specification().groupBy("PXForward").save(),
45  Specification().groupBy("PXBarrel/PXLayer").save(),
46  Specification().groupBy("PXForward/PXDisk").save()
47  )
48 )
49 
50 SiPixelPhase1ClustersSize = DefaultHistoDigiCluster.clone(
51  name = "size",
52  title = "Total Cluster Size",
53  range_min = 0, range_max = 30, range_nbins = 30,
54  xlabel = "size[pixels]",
55  specs = VPSet(
56  StandardSpecification2DProfile,
57  StandardSpecificationPixelmapProfile,
58  StandardSpecificationTrend,
59  StandardSpecifications1D,
60  StandardSpecificationTrend2D
61  )
62 )
63 
64 SiPixelPhase1ClustersSizeX = DefaultHistoDigiCluster.clone(
65  name = "sizeX",
66  title = "Cluster Size in X",
67  range_min = 0, range_max = 30, range_nbins = 30,
68  xlabel = "size[pixels]",
69  specs = VPSet(
70  #StandardSpecification2DProfile,
71  #StandardSpecificationPixelmapProfile,
72  #StandardSpecificationTrend,
73  StandardSpecifications1D,
74  #StandardSpecificationTrend2D
75  )
76 )
77 
78 SiPixelPhase1ClustersSizeY = DefaultHistoDigiCluster.clone(
79  name = "sizeY",
80  title = "Cluster Size in Y",
81  range_min = 0, range_max = 30, range_nbins = 30,
82  xlabel = "size[pixels]",
83  specs = VPSet(
84  #StandardSpecification2DProfile,
85  #StandardSpecificationPixelmapProfile,
86  #StandardSpecificationTrend,
87  StandardSpecifications1D,
88  #StandardSpecificationTrend2D
89  )
90 )
91 
92 SiPixelPhase1ClustersNClusters = DefaultHistoDigiCluster.clone(
93  name = "clusters",
94  title = "Clusters",
95  range_min = 0, range_max = 100, range_nbins = 25,
96  xlabel = "clusters",
97  dimensions = 0,
98 
99  specs = VPSet(
100  StandardSpecificationOccupancy,
101  StandardSpecification2DProfile_Num,
102  StandardSpecificationTrend_Num,
103  StandardSpecifications1D_Num,
104 
105  Specification().groupBy("PXBarrel/PXLayer/Event") #this will produce inclusive counts per Layer/Disk
106  .reduce("COUNT")
107  .groupBy("PXBarrel/PXLayer")
108  .save(nbins=50, xmin=0, xmax=10000),
109  Specification().groupBy("PXForward/PXDisk/Event")
110  .reduce("COUNT")
111  .groupBy("PXForward/PXDisk/")
112  .save(nbins=50, xmin=0, xmax=5000),
113  )
114 )
115 
116 
117 SiPixelPhase1ClustersNClustersInclusive = DefaultHistoDigiCluster.clone(
118  name = "clusters",
119  title = "Clusters",
120  range_min = 0, range_max = 20000, range_nbins = 100,
121  xlabel = "clusters",
122  dimensions = 0,
123  specs = VPSet(
124  StandardSpecificationInclusive_Num
125  )
126 )
127 
128 
129 SiPixelPhase1ClustersEventrate = DefaultHistoDigiCluster.clone(
130  name = "clustereventrate",
131  title = "Number of Events with clusters",
132  ylabel = "#Events",
133  dimensions = 0,
134  enabled=False,
135  specs = VPSet(
136  Specification().groupBy("Lumisection")
137  .groupBy("", "EXTEND_X").save(),
138  Specification().groupBy("BX")
139  .groupBy("", "EXTEND_X").save()
140  )
141 
142 )
143 
144 
145 SiPixelPhase1ClustersPositionB = DefaultHistoDigiCluster.clone(
146  name = "clusterposition_zphi",
147  title = "Cluster Positions",
148  range_min = -60, range_max = 60, range_nbins = 300,
149  range_y_min = -3.2, range_y_max = 3.2, range_y_nbins = 200,
150  xlabel = "Global Z", ylabel = "Global \phi",
151  dimensions = 2,
152  specs = VPSet(
153  Specification().groupBy("PXBarrel/PXLayer").save(),
154  Specification().groupBy("").save(),
155  )
156 )
157 
158 SiPixelPhase1ClustersPositionF = DefaultHistoDigiCluster.clone(
159  name = "clusterposition_xy",
160  title = "Cluster Positions",
161  xlabel = "Global X", ylabel = "Global Y",
162  range_min = -20, range_max = 20, range_nbins = 200,
163  range_y_min = -20, range_y_max = 20, range_y_nbins = 200,
164  dimensions = 2,
165  specs = VPSet(
166  Specification().groupBy("PXForward/PXDisk").save(),
167  Specification().groupBy("PXForward").save(),
168  #Specification().groupBy("PXBarrel").save(),
169  )
170 )
171 
172 SiPixelPhase1ClustersPositionXZ = DefaultHistoDigiCluster.clone(
173  enabled = False, # only for debugging geometry
174  name = "clusterposition_xz",
175  title = "Cluster Positions",
176  xlabel = "Global X", ylabel = "Global Z",
177  range_min = -20, range_max = 20, range_nbins = 200,
178  range_y_min = -60, range_y_max = 60, range_y_nbins = 1200,
179  dimensions = 2,
180  specs = VPSet(
181  )
182 )
183 
184 SiPixelPhase1ClustersPositionYZ = DefaultHistoDigiCluster.clone(
185  enabled = False, # only for debugging geometry
186  name = "clusterposition_yz",
187  title = "Cluster Positions",
188  xlabel = "Global Y", ylabel = "Global Z",
189  range_min = -20, range_max = 20, range_nbins = 200,
190  range_y_min = -60, range_y_max = 60, range_y_nbins = 1200,
191  dimensions = 2,
192  specs = VPSet(
193  )
194 )
195 
196 SiPixelPhase1ClustersSizeVsEta = DefaultHistoDigiCluster.clone(
197  name = "sizeyvseta",
198  title = "Cluster Size along Beamline vs. Cluster position #eta",
199  xlabel = "Cluster #eta",
200  ylabel = "length [pixels]",
201  range_min = -3.2, range_max = 3.2, range_nbins = 40,
202  range_y_min = 0, range_y_max = 40, range_y_nbins = 40,
203  dimensions = 2,
204  specs = VPSet(
205  Specification().groupBy("PXBarrel/PXLayer").save(),
206  Specification().groupBy("PXBarrel").save()
207  )
208 )
209 
210 SiPixelPhase1ClustersReadoutCharge = DefaultHistoReadout.clone(
211  name = "charge",
212  title = "Cluster Charge",
213  range_min = 0, range_max = 200e3, range_nbins = 200,
214  xlabel = "Charge (electrons)",
215  specs = VPSet(
216  Specification(PerReadout).groupBy("PXBarrel/Shell/Sector").save(),
217  Specification(PerReadout).groupBy("PXForward/HalfCylinder").save()
218 
219  #Specification(PerReadout).groupBy("PXBarrel/Shell/Sector/OnlineBlock")
220  # .groupBy("PXBarrel/Shell/Sector", "EXTEND_Y").save(),
221  #Specification(PerReadout).groupBy("PXForward/HalfCylinder/OnlineBlock")
222  # .groupBy("PXForward/HalfCylinder", "EXTEND_Y").save(),
223  )
224 )
225 
226 SiPixelPhase1ClustersReadoutNClusters = DefaultHistoReadout.clone(
227  name = "clusters",
228  title = "Clusters",
229  range_min = 0, range_max = 100, range_nbins = 25,
230  xlabel = "clusters",
231  dimensions = 0,
232  specs = VPSet(
233  Specification(PerReadout).groupBy("PXBarrel/Shell/Sector/DetId/Event").reduce("COUNT")
234  .groupBy("PXBarrel/Shell/Sector").save(),
235  Specification(PerReadout).groupBy("PXForward/HalfCylinder/DetId/Event").reduce("COUNT")
236  .groupBy("PXForward/HalfCylinder").save(),
237 
238  Specification(PerReadout).groupBy("PXBarrel/Shell/Sector/DetId/Event").reduce("COUNT")
239  .groupBy("PXBarrel/Shell/Sector/LumiBlock").reduce("MEAN")
240  .groupBy("PXBarrel/Shell/Sector", "EXTEND_X").save(),
241  Specification(PerReadout).groupBy("PXForward/HalfCylinder/DetId/Event").reduce("COUNT")
242  .groupBy("PXForward/HalfCylinder/LumiBlock").reduce("MEAN")
243  .groupBy("PXForward/HalfCylinder", "EXTEND_X").save(),
244  )
245 )
246 
247 SiPixelPhase1ClustersPixelToStripRatio = DefaultHistoDigiCluster.clone(
248  enabled = False,
249  name = "cluster_ratio",
250  title = "Pixel to Strip clusters ratio",
251 
252  xlabel = "ratio",
253  dimensions = 1,
254 
255  specs = VPSet(
256  Specification().groupBy("PXAll").save(100, 0, 1),
257  Specification().groupBy("PXAll/LumiBlock")
258  .reduce("MEAN")
259  .groupBy("PXAll", "EXTEND_X")
260  .save(),
261  Specification().groupBy("PXAll/BX")
262  .reduce("MEAN")
263  .groupBy("PXAll", "EXTEND_X")
264  .save(),
265  )
266 )
267 
268 SiPixelPhase1ClustersConf = cms.VPSet(
269  SiPixelPhase1ClustersCharge,
270  SiPixelPhase1ClustersBigPixelCharge,
271  SiPixelPhase1ClustersNotBigPixelCharge,
272  SiPixelPhase1ClustersSize,
273  SiPixelPhase1ClustersSizeX,
274  SiPixelPhase1ClustersSizeY,
275  SiPixelPhase1ClustersNClusters,
276  SiPixelPhase1ClustersNClustersInclusive,
277  SiPixelPhase1ClustersEventrate,
278  SiPixelPhase1ClustersPositionB,
279  SiPixelPhase1ClustersPositionF,
280  SiPixelPhase1ClustersPositionXZ,
281  SiPixelPhase1ClustersPositionYZ,
282  SiPixelPhase1ClustersSizeVsEta,
283  SiPixelPhase1ClustersReadoutCharge,
284  SiPixelPhase1ClustersReadoutNClusters,
285  SiPixelPhase1ClustersPixelToStripRatio
286 )
287 
288 from DQMServices.Core.DQMEDAnalyzer import DQMEDAnalyzer
289 SiPixelPhase1ClustersAnalyzer = DQMEDAnalyzer('SiPixelPhase1Clusters',
290  pixelSrc = cms.InputTag("siPixelClusters"),
291  stripSrc = cms.InputTag("siStripClusters"),
292  histograms = SiPixelPhase1ClustersConf,
293  geometry = SiPixelPhase1Geometry,
294  triggerflags = trigger.SiPixelPhase1Triggers
295 )
296 
297 SiPixelPhase1ClustersHarvester = DQMEDHarvester("SiPixelPhase1Harvester",
298  histograms = SiPixelPhase1ClustersConf,
299  geometry = SiPixelPhase1Geometry
300 )
save
Definition: cuy.py:1164