Author: [log in to unmask]
Date: Tue May 5 16:27:13 2015
New Revision: 2911
Log:
Add plots for clusters associated with tracks.
Modified:
java/trunk/users/src/main/java/org/hps/users/omoreno/SvtClusterAnalysis.java
Modified: java/trunk/users/src/main/java/org/hps/users/omoreno/SvtClusterAnalysis.java
=============================================================================
--- java/trunk/users/src/main/java/org/hps/users/omoreno/SvtClusterAnalysis.java (original)
+++ java/trunk/users/src/main/java/org/hps/users/omoreno/SvtClusterAnalysis.java Tue May 5 16:27:13 2015
@@ -15,13 +15,17 @@
import hep.aida.ITree;
import hep.aida.ref.rootwriter.RootFileStore;
-import org.hps.recon.tracking.FittedRawTrackerHit;
import org.lcsim.recon.tracking.digitization.sisim.SiTrackerHitStrip1D;
import org.lcsim.util.Driver;
+import org.lcsim.fit.helicaltrack.HelicalTrackCross;
+import org.lcsim.fit.helicaltrack.HelicalTrackStrip;
import org.lcsim.geometry.Detector;
import org.lcsim.detector.tracker.silicon.HpsSiSensor;
import org.lcsim.event.EventHeader;
import org.lcsim.event.RawTrackerHit;
+import org.lcsim.event.Track;
+import org.lcsim.event.TrackerHit;
+import org.hps.recon.tracking.FittedRawTrackerHit;
/**
*
@@ -44,17 +48,21 @@
ITree tree;
IHistogramFactory histogramFactory;
IPlotterFactory plotterFactory = IAnalysisFactory.create().createPlotterFactory();
+ protected Map<String, IPlotter> plotters = new HashMap<String, IPlotter>();
- protected Map<String, IPlotter> plotters = new HashMap<String, IPlotter>();
private Map<HpsSiSensor, IHistogram1D> clusterChargePlots = new HashMap<HpsSiSensor, IHistogram1D>();
+ private Map<HpsSiSensor, IHistogram1D> singleHitClusterChargePlots = new HashMap<HpsSiSensor, IHistogram1D>();
+ private Map<HpsSiSensor, IHistogram1D> multHitClusterChargePlots = new HashMap<HpsSiSensor, IHistogram1D>();
+ private Map<HpsSiSensor, IHistogram1D> trackClusterChargePlots = new HashMap<HpsSiSensor, IHistogram1D>();
private Map<HpsSiSensor, IHistogram1D> signalToNoisePlots = new HashMap<HpsSiSensor, IHistogram1D>();
- private Map<HpsSiSensor, IHistogram1D> singleHitClusterChargePlots = new HashMap<HpsSiSensor, IHistogram1D>();
private Map<HpsSiSensor, IHistogram1D> singleHitSignalToNoisePlots = new HashMap<HpsSiSensor, IHistogram1D>();
- private Map<HpsSiSensor, IHistogram1D> multHitClusterChargePlots = new HashMap<HpsSiSensor, IHistogram1D>();
private Map<HpsSiSensor, IHistogram1D> multHitSignalToNoisePlots = new HashMap<HpsSiSensor, IHistogram1D>();
+ private Map<HpsSiSensor, IHistogram1D> trackHitSignalToNoisePlots = new HashMap<HpsSiSensor, IHistogram1D>();
+ private Map<HpsSiSensor, IHistogram1D> clusterMultiplicityPlots = new HashMap<HpsSiSensor, IHistogram1D>();
private Map<HpsSiSensor, IHistogram1D> clusterTimePlots = new HashMap<HpsSiSensor, IHistogram1D>();
+ private Map<HpsSiSensor, IHistogram1D> trackClusterTimePlots = new HashMap<HpsSiSensor, IHistogram1D>();
private Map<HpsSiSensor, IHistogram2D> clusterChargeVsTimePlots = new HashMap<HpsSiSensor, IHistogram2D>();
-
+
// Detector name
private static final String SUBDETECTOR_NAME = "Tracker";
@@ -63,6 +71,7 @@
private String fittedHitsCollectionName = "SVTFittedRawTrackerHits";
private int runNumber = -1;
+
/**
* Default Ctor
@@ -117,6 +126,9 @@
plotters.put("Signal to Noise", plotterFactory.create("Signal to Noise"));
plotters.get("Signal to Noise").createRegions(6, 6);
+ plotters.put("Cluster Multiplicity", plotterFactory.create("Cluster Multiplicity"));
+ plotters.get("Cluster Multiplicity").createRegions(6, 6);
+
plotters.put("Cluster Time", plotterFactory.create("Cluster Time"));
plotters.get("Cluster Time").createRegions(6, 6);
@@ -129,7 +141,7 @@
histogramFactory.createHistogram1D(sensor.getName() + " - Cluster Charge", 100, 0, 5000));
plotters.get("Cluster Amplitude").region(this.computePlotterRegion(sensor))
.plot(clusterChargePlots.get(sensor), this.createStyle(1, "Cluster Amplitude [ADC Counts]", ""));
-
+
singleHitClusterChargePlots.put(sensor,
histogramFactory.createHistogram1D(sensor.getName() + " - Single Hit Cluster Charge", 100, 0, 5000));
plotters.get("Cluster Amplitude").region(this.computePlotterRegion(sensor))
@@ -139,6 +151,11 @@
histogramFactory.createHistogram1D(sensor.getName() + " - Multiple Hit Cluster Charge", 100, 0, 5000));
plotters.get("Cluster Amplitude").region(this.computePlotterRegion(sensor))
.plot(multHitClusterChargePlots.get(sensor), this.createStyle(2, "Cluster Amplitude [ADC Counts]", ""));
+
+ trackClusterChargePlots.put(sensor,
+ histogramFactory.createHistogram1D(sensor.getName() + " - Tracker Cluster Charge", 100, 0, 5000));
+ plotters.get("Cluster Amplitude").region(this.computePlotterRegion(sensor))
+ .plot(trackClusterChargePlots.get(sensor), this.createStyle(3, "Cluster Amplitude [ADC Counts]", ""));
signalToNoisePlots.put(sensor,
histogramFactory.createHistogram1D(sensor.getName() + " - Signal to Noise", 50, 0, 50));
@@ -154,18 +171,31 @@
histogramFactory.createHistogram1D(sensor.getName() + " - Multiple Hit Signal to Noise", 50, 0, 50));
plotters.get("Signal to Noise").region(this.computePlotterRegion(sensor))
.plot(multHitSignalToNoisePlots.get(sensor), this.createStyle(2, "Signal to Noise", ""));
-
+
+ trackHitSignalToNoisePlots.put(sensor,
+ histogramFactory.createHistogram1D(sensor.getName() + " - Track Signal to Noise", 50, 0, 50));
+ plotters.get("Signal to Noise").region(this.computePlotterRegion(sensor))
+ .plot(trackHitSignalToNoisePlots.get(sensor), this.createStyle(3, "Signal to Noise", ""));
+
+ clusterMultiplicityPlots.put(sensor,
+ histogramFactory.createHistogram1D(sensor.getName() + " - Cluster Multiplicity", 10, 0, 10));
+ plotters.get("Cluster Multiplicity").region(this.computePlotterRegion(sensor))
+ .plot(clusterMultiplicityPlots.get(sensor), this.createStyle(1, "Cluster Multiplicity", ""));
clusterTimePlots.put(sensor,
histogramFactory.createHistogram1D(sensor.getName() + " - Cluster Time", 100, -100, 100));
plotters.get("Cluster Time").region(this.computePlotterRegion(sensor))
.plot(clusterTimePlots.get(sensor), this.createStyle(1, "Cluster Time [ns]", ""));
+
+ trackClusterTimePlots.put(sensor,
+ histogramFactory.createHistogram1D(sensor.getName() + " - Track Cluster Time", 100, -100, 100));
+ plotters.get("Cluster Time").region(this.computePlotterRegion(sensor))
+ .plot(trackClusterTimePlots.get(sensor), this.createStyle(3, "Cluster Time [ns]", ""));
clusterChargeVsTimePlots.put(sensor,
histogramFactory.createHistogram2D(sensor.getName() + " - Cluster Amplitude vs Time", 100, 0, 5000, 100, -100, 100));
plotters.get("Cluster Amplitude vs Cluster Time").region(this.computePlotterRegion(sensor))
.plot(clusterChargeVsTimePlots.get(sensor));
-
}
for (IPlotter plotter : plotters.values()) {
@@ -191,9 +221,10 @@
// Get the list of clusters in the event
List<SiTrackerHitStrip1D> clusters = event.get(SiTrackerHitStrip1D.class, clusterCollectionName);
+ System.out.println("Number of clusters: " + clusters.size());
for (SiTrackerHitStrip1D cluster : clusters) {
-
+
// Get the sensor associated with this cluster
HpsSiSensor sensor = (HpsSiSensor) cluster.getSensor();
@@ -217,7 +248,9 @@
noise += channelNoise * this.getFittedHit(rawHit).getAmp();
}
-
+
+ clusterMultiplicityPlots.get(sensor).fill(cluster.getRawHits().size());
+
// Calculate the signal weighted noise
noise = noise/amplitude;
@@ -233,6 +266,52 @@
} else {
multHitClusterChargePlots.get(sensor).fill(amplitude);
multHitSignalToNoisePlots.get(sensor).fill(amplitude/noise);
+ }
+ }
+
+ if (!event.hasCollection(Track.class, "MatchedTracks")) return;
+
+ List<Track> tracks = event.get(Track.class, "MatchedTracks");
+
+ for (Track track : tracks) {
+
+ for (TrackerHit stereoHit : track.getTrackerHits()) {
+
+ for (HelicalTrackStrip cluster : ((HelicalTrackCross) stereoHit).getStrips()) {
+
+ // Get the raw hits composing this cluster and use them to calculate the amplitude of the hit
+ double amplitude = 0;
+ double noise = 0;
+ HpsSiSensor sensor = null;
+ for (Object hit : cluster.rawhits()) {
+ RawTrackerHit rawHit = (RawTrackerHit) hit;
+
+ sensor = (HpsSiSensor) rawHit.getDetectorElement();
+
+ // Get the channel of the raw hit
+ int channel = rawHit.getIdentifierFieldValue("strip");
+
+ // Add the amplitude of that channel to the total amplitude
+ amplitude += this.getFittedHit(rawHit).getAmp();
+
+ // Calculate the mean noise for the channel
+ double channelNoise = 0;
+ for (int sampleN = 0; sampleN < 6; sampleN++) {
+ channelNoise += sensor.getNoise(channel, sampleN);
+ }
+ channelNoise = channelNoise/6;
+
+ noise += channelNoise * this.getFittedHit(rawHit).getAmp();
+ }
+
+ // Calculate the signal weighted noise
+ noise = noise/amplitude;
+
+ // Fill all plots
+ trackClusterChargePlots.get(sensor).fill(amplitude);
+ trackHitSignalToNoisePlots.get(sensor).fill(amplitude/noise);
+ trackClusterTimePlots.get(sensor).fill(cluster.time());
+ }
}
}
}
@@ -307,6 +386,10 @@
style.dataStyle().fillStyle().setColor("93, 228, 47, 1");
style.dataStyle().outlineStyle().setColor("93, 228, 47, 1");
style.dataStyle().fillStyle().setOpacity(.70);
+ } else if (color == 3) {
+ style.dataStyle().fillStyle().setColor("255, 38, 38, 1");
+ style.dataStyle().outlineStyle().setColor("255, 38, 38, 1");
+ style.dataStyle().fillStyle().setOpacity(.70);
}
style.dataStyle().errorBarStyle().setVisible(false);
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