GeomConverter/test/org/lcsim/geometry
diff -N GeometryReaderTest.xml
--- /dev/null 1 Jan 1970 00:00:00 -0000
+++ GeometryReaderTest.xml 18 Jul 2005 22:16:32 -0000 1.1
@@ -0,0 +1,233 @@
+<!--
+ Time-stamp: <2004-12-14 11:20:57 jeremym>
+
+ Example compact description ("lccdd") corresponding to
+ stdhep examples in SLIC: examples/stdhep/barr.lcdd.
+-->
+
+<!-- top-level compact description element -->
+<lccdd xmlns:lccdd="namespaceUrl"
+ xmlns:xs="http://www.w3.org/2001/XMLSchema-instance"
+ xs:noNamespaceSchemaLocation="noNamespaceUrl">
+
+ <!-- info tag containing author, version, time, unique id (url) -->
+ <info name="GeometryReaderTest"
+ title="GeometryReaderTest from sdjan03"
+ author="Jeremy McCormick"
+ url="none">
+ <comment>
+ Geometry to test org.lcsim.geometry.GeometryReader.
+ </comment>
+ </info>
+
+ <!-- Constants -->
+ <define>
+
+ <constant name="cm" value="10"/>
+
+ <!-- world -->
+ <constant name="world_side" value="15000" />
+ <constant name="world_x" value="world_side" />
+ <constant name="world_y" value="world_side" />
+ <constant name="world_z" value="world_side" />
+
+ <!-- tracking region -->
+ <constant name="tracking_region_radius" value="127.0*cm"/>
+ <constant name="tracking_region_zmax" value="168.0*cm"/>
+
+ <constant name="vertex_inner_r" value="1.2*cm"/>
+ <constant name="vertex_delta_r" value="1.2*cm"/>
+ <constant name="vertex_outer_z" value="12.5*cm"/>
+
+ </define>
+
+ <materials>
+
+ <!-- so can easily replace references
+ with something more realistic later -->
+ <material name="MuonAir" >
+ <D type="density" unit="g/cm3" value="0.0012"/>
+ <fraction n="0.7803" ref="N"/>
+ <fraction n="0.2103" ref="O"/>
+ <fraction n="0.0094" ref="Ar"/>
+ </material>
+
+ </materials>
+
+ <detectors>
+ <detector id="0" name="BarrelVertex" type="MultiLayerTracker" readout="VtxBarrHits">
+ <layer id="1" inner_r = "vertex_inner_r" outer_z = "2.5*cm">
+ <slice material = "Silicon" thickness = "0.01*cm" sensitive = "yes" />
+ </layer>
+ <layer id="2" inner_r = "vertex_inner_r + 1 * vertex_delta_r" outer_z = "vertex_outer_z">
+ <slice material = "Silicon" thickness = "0.01*cm" sensitive = "yes" />
+ </layer>
+ <layer id="3" inner_r = "vertex_inner_r + 2 * vertex_delta_r" outer_z = "vertex_outer_z">
+ <slice material = "Silicon" thickness = "0.01*cm" sensitive = "yes" />
+ </layer>
+ <layer id="4" inner_r = "vertex_inner_r + 3 * vertex_delta_r" outer_z = "vertex_outer_z" >
+ <slice material = "Silicon" thickness = "0.01*cm" sensitive = "yes" />
+ </layer>
+ <layer id="5" inner_r = "vertex_inner_r + 4 * vertex_delta_r" outer_z = "vertex_outer_z">
+ <slice material = "Silicon" thickness = "0.01*cm" sensitive = "yes" />
+ </layer>
+ </detector>
+
+ <detector id="1" name="BarrelTracker" type="MultiLayerTracker" readout="TkrBarrHits">
+ <layer id="1" inner_r = "20.0*cm" outer_z = "26.67*cm">
+ <slice material = "G10" thickness = "0.05*cm" />
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="2" inner_r = "46.25*cm" outer_z = "61.67*cm">
+ <slice material = "G10" thickness = "0.05*cm" />
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="3" inner_r = "72.5*cm" outer_z = "96.67*cm">
+ <slice material = "G10" thickness = "0.05*cm" />
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="4" inner_r = "98.75*cm" outer_z = "131.67*cm" >
+ <slice material = "G10" thickness = "0.05*cm" />
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="5" inner_r = "125.0*cm" outer_z = "166.67*cm">
+ <slice material = "G10" thickness = "0.05*cm" />
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ </detector>
+
+ <detector id="2" name="EndcapTracker" type="DiskTracker" reflect="true" readout="TkrEndcapHits">
+ <layer id="1" inner_r = "4.0*cm" inner_z = "27.1*cm" outer_r = "20.50*cm">
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="2" inner_r = "4.0*cm" inner_z = "27.12*cm" outer_r = "20.50*cm">
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="3" inner_r = "7.9*cm" inner_z = "62.1*cm" outer_r = "46.75*cm">
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="4" inner_r = "7.9*cm" inner_z = "62.12*cm" outer_r = "46.75*cm" >
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="5" inner_r = "11.7*cm" inner_z = "97.1*cm" outer_r = "73.0*cm" >
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="6" inner_r = "11.7*cm" inner_z = "97.12*cm" outer_r = "73.0*cm">
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="7" inner_r = "15.6*cm" inner_z = "132.1*cm" outer_r = "99.25*cm">
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="8" inner_r = "15.6*cm" inner_z = "132.12*cm" outer_r = "99.25*cm">
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="9" inner_r = "19.5*cm" inner_z = "167.1*cm" outer_r = "125.50*cm" >
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ <layer id="10" inner_r = "19.5*cm" inner_z = "167.12*cm" outer_r = "125.50*cm" >
+ <slice material = "Silicon" thickness = "0.02*cm" sensitive = "yes" />
+ </layer>
+ </detector>
+ <detector id="2" name="EMBarrel" type="CylindricalBarrelCalorimeter" readout="EcalBarrHits">
+ <dimensions inner_r = "127.0*cm" outer_z = "184.0*cm" />
+ <layer repeat="30">
+ <slice material = "Tungsten" thickness = "0.25*cm" />
+ <slice material = "G10" thickness = "0.05*cm" />
+ <slice material = "Silicon" thickness = "0.04*cm" sensitive = "yes" />
+ <slice material = "Copper" thickness = "0.1*cm" />
+ <slice material = "Air" thickness = "0.06*cm" />
+ </layer>
+ </detector>
+ <detector id="6" name="EMEndcap" reflect="true" type="CylindricalEndcapCalorimeter" readout="EcalEndcapHits">
+ <dimensions inner_r = "20.0*cm" inner_z = "168.0*cm" outer_r = "125.0*cm" />
+ <layer repeat="30" >
+ <slice material = "Tungsten" thickness = "0.25*cm" />
+ <slice material = "G10" thickness = "0.05*cm" />
+ <slice material = "Silicon" thickness = "0.04*cm" sensitive = "yes" />
+ <slice material = "Copper" thickness = "0.1*cm" />
+ <slice material = "Air" thickness = "0.06*cm" />
+ </layer>
+ </detector>
+ <detector id="3" name="HADBarrel" type="CylindricalBarrelCalorimeter" readout="HcalBarrHits">
+ <dimensions inner_r = "144.0*cm" outer_z = "286.0*cm" />
+ <layer repeat="34">
+ <slice material = "Steel235" thickness = "2.0*cm" />
+ <slice material = "Polystyrene" thickness = "1.0*cm" sensitive = "yes" />
+ </layer>
+ </detector>
+ <detector id ="7" name="HAD_ENDCAP" reflect="true" type="CylindricalEndcapCalorimeter" readout="HcalEndcapHits">
+ <dimensions inner_r = "20.0*cm" inner_z = "184.0*cm" outer_r = "142.0*cm" />
+ <layer repeat="34" >
+ <slice material = "Steel235" thickness = "2.0*cm" />
+ <slice material = "Polystyrene" thickness = "1.0*cm" sensitive = "yes" />
+ </layer>
+ </detector>
+ <detector id="4" name="MUON_BARREL" type="CylindricalBarrelCalorimeter" readout="MuonBarrHits" detectorType="calorimeter">
+ <dimensions inner_r = "337.0*cm" outer_z = "287.0*cm" />
+ <layer repeat="32">
+ <slice material = "Iron" thickness = "5.0*cm" />
+ <slice material = "Air" thickness = "1.5*cm" sensitive = "yes" />
+ </layer>
+ </detector>
+ <detector id="8" name="MUON_ENDCAP" reflect="true" type="CylindricalEndcapCalorimeter" readout="MuonEndcapHits">
+ <dimensions inner_r = "20.0*cm" inner_z = "287.0*cm" outer_r = "636.0*cm" />
+ <layer repeat="32">
+ <slice material = "Iron" thickness = "5.0*cm" />
+ <slice material = "Air" thickness = "1.5*cm" sensitive = "yes" />
+ </layer>
+ </detector>
+ <detector id="9" name="LUM_ENDCAP" reflect="true" type="CylindricalEndcapCalorimeter" readout="LumEndcapHits">
+ <dimensions inner_r = "0.0001*cm" inner_z = "310.0*cm" outer_r = "9.2*cm" />
+ <layer repeat="1">
+ <slice material="Beryllium" thickness = "10.*cm" />
+ <slice material="Tungsten" thickness = "35.*cm" sensitive = "yes" />
+ </layer>
+ </detector>
+ </detectors>
+ <readouts>
+ <readout name="MuonBarrHits">
+ <segmentation type="ProjectiveCylinder" thetaBins="150" phiBins="300"/>
+ <id>layer:7,system:3,barrel:3,theta:32:11,phi:11</id>
+ </readout>
+ <readout name="MuonEndcapHits">
+ <segmentation type="ProjectiveZPlane" thetaBins="150" phiBins="300"/>
+ <id>layer:7,system:3,barrel:3,theta:32:11,phi:11</id>
+ </readout>
+ <readout name="LumEndcapHits">
+ <segmentation type="ProjectiveZPlane" thetaBins="600" phiBins="1200"/>
+ <id>layer:7,system:3,barrel:3,theta:32:11,phi:11</id>
+ </readout>
+ <readout name="HcalEndcapHits">
+ <segmentation type="ProjectiveZPlane" thetaBins="600" phiBins="1200"/>
+ <id>layer:7,system:3,barrel:3,theta:32:11,phi:11</id>
+ </readout>
+ <readout name="HcalBarrHits">
+ <segmentation type="ProjectiveCylinder" thetaBins="600" phiBins="1200"/>
+ <id>layer:7,system:3,barrel:3,theta:32:11,phi:11</id>
+ </readout>
+ <readout name="EcalEndcapHits">
+ <segmentation type="ProjectiveZPlane" thetaBins="840" phiBins="1680"/>
+ <id>layer:7,system:3,barrel:3,theta:32:11,phi:11</id>
+ </readout>
+ <readout name="EcalBarrHits">
+ <segmentation type="ProjectiveCylinder" thetaBins="840" phiBins="1680"/>
+ <id>layer:7,system:3,barrel:3,theta:32:11,phi:11</id>
+ </readout>
+ <readout name="TkrBarrHits">
+ <id>layer:10,system:3,barrel:3</id>
+ </readout>
+ <readout name="TkrEndcapHits">
+ <id>layer:10,system:3,barrel:3</id>
+ </readout>
+ <readout name="VtxBarrHits">
+ <id>layer:10,system:3,barrel:3</id>
+ </readout>
+ </readouts>
+ <fields>
+ <field type="Solenoid" name="GlobalSolenoid"
+ inner_field="5.0"
+ outer_field="-0.6"
+ zmax="1000"
+ outer_radius="144*cm+(2+1)*34*cm"/>
+ </fields>
+</lccdd>