18 int ringNo =
args.value<
int>(
"RingNo");
19 bool isStereo =
args.value<
int>(
"isStereo") == 1;
20 bool isRing6 = (ringNo == 6);
22 args.value<
double>(
"RPos");
23 double posCorrectionPhi = isStereo ?
args.value<
double>(
"PosCorrectionPhi")
25 string standardRot =
args.value<
string>(
27 string genMat =
args.value<
string>(
"GeneralMaterial");
28 double moduleThick =
args.value<
double>(
"ModuleThick");
29 double detTilt =
args.value<
double>(
"DetTilt");
30 double fullHeight =
args.value<
double>(
"FullHeight");
31 double dlTop =
args.value<
double>(
"DlTop");
32 double dlBottom =
args.value<
double>(
"DlBottom");
33 double dlHybrid =
args.value<
double>(
"DlHybrid");
34 double frameWidth =
args.value<
double>(
"FrameWidth");
35 double frameThick =
args.value<
double>(
"FrameThick");
36 double frameOver =
args.value<
double>(
"FrameOver");
37 string topFrameMat =
args.value<
string>(
"TopFrameMaterial");
38 double topFrameHeight =
args.value<
double>(
"TopFrameHeight");
39 double topFrameThick =
args.value<
double>(
"TopFrameThick");
40 double topFrameTopWidth =
args.value<
double>(
"TopFrameTopWidth");
41 double topFrameBotWidth =
args.value<
double>(
"TopFrameBotWidth");
42 double topFrame2Width = isStereo ?
args.value<
double>(
"TopFrame2Width") : 0e0;
43 double topFrame2LHeight = isStereo ?
args.value<
double>(
"TopFrame2LHeight") : 0e0;
44 double topFrame2RHeight = isStereo ?
args.value<
double>(
"TopFrame2RHeight") : 0e0;
45 double topFrameZ =
args.value<
double>(
"TopFrameZ");
47 double resizeH = 0.96;
48 string sideFrameMat =
args.value<
string>(
"SideFrameMaterial");
49 double sideFrameThick =
args.value<
double>(
"SideFrameThick");
50 double sideFrameLWidth =
args.value<
double>(
"SideFrameLWidth");
51 double sideFrameLWidthLow = isStereo ?
args.value<
double>(
"SideFrameLWidthLow")
53 double sideFrameLHeight = resizeH *
args.value<
double>(
"SideFrameLHeight");
54 double sideFrameLtheta =
args.value<
double>(
"SideFrameLtheta");
55 double sideFrameRWidth =
args.value<
double>(
"SideFrameRWidth");
56 double sideFrameRWidthLow = isStereo ?
args.value<
double>(
"SideFrameRWidthLow")
58 double sideFrameRHeight = resizeH *
args.value<
double>(
"SideFrameRHeight");
59 double sideFrameRtheta =
args.value<
double>(
"SideFrameRtheta");
60 vector<double> siFrSuppBoxWidth =
args.value<vector<double> >(
"SiFrSuppBoxWidth");
61 vector<double> siFrSuppBoxHeight =
args.value<vector<double> >(
"SiFrSuppBoxHeight");
62 vector<double> siFrSuppBoxYPos =
args.value<vector<double> >(
64 double sideFrameZ =
args.value<
double>(
"SideFrameZ");
65 double siFrSuppBoxThick =
args.value<
double>(
"SiFrSuppBoxThick");
66 string siFrSuppBoxMat =
args.value<
string>(
"SiFrSuppBoxMaterial");
67 string waferMat =
args.value<
string>(
"WaferMaterial");
68 double waferPosition =
args.value<
double>(
70 double sideWidthTop =
args.value<
double>(
"SideWidthTop");
71 double sideWidthBottom =
args.value<
double>(
"SideWidthBottom");
72 string waferRot =
args.value<
string>(
"WaferRotation");
73 string activeMat =
args.value<
string>(
"ActiveMaterial");
74 double activeHeight =
args.value<
double>(
"ActiveHeight");
75 double waferThick =
args.value<
double>(
"WaferThick");
76 string activeRot =
args.value<
string>(
"ActiveRotation");
77 double activeZ =
args.value<
double>(
"ActiveZ");
78 double backplaneThick =
args.value<
double>(
"BackPlaneThick");
79 double inactiveDy = ringNo > 3 ?
args.value<
double>(
"InactiveDy") : 0e0;
80 double inactivePos = ringNo > 3 ?
args.value<
double>(
"InactivePos") : 0e0;
81 string inactiveMat = ringNo > 3 ?
args.value<
string>(
"InactiveMaterial") :
string();
82 string hybridMat =
args.value<
string>(
"HybridMaterial");
83 double hybridHeight =
args.value<
double>(
"HybridHeight");
84 double hybridWidth =
args.value<
double>(
"HybridWidth");
85 double hybridThick =
args.value<
double>(
"HybridThick");
86 double hybridZ =
args.value<
double>(
"HybridZ");
87 string pitchMat =
args.value<
string>(
"PitchMaterial");
88 double pitchWidth =
args.value<
double>(
"PitchWidth");
89 double pitchHeight =
args.value<
double>(
"PitchHeight");
90 double pitchThick =
args.value<
double>(
"PitchThick");
91 double pitchZ =
args.value<
double>(
"PitchZ");
92 string pitchRot =
args.value<
string>(
"PitchRotation");
93 string bridgeMat =
args.value<
string>(
"BridgeMaterial");
94 double bridgeWidth =
args.value<
double>(
"BridgeWidth");
95 double bridgeThick =
args.value<
double>(
"BridgeThick");
96 double bridgeHeight =
args.value<
double>(
"BridgeHeight");
97 double bridgeSep =
args.value<
double>(
"BridgeSeparation");
98 vector<double> siReenforceHeight =
args.value<vector<double> >(
"SiReenforcementHeight");
99 vector<double> siReenforceWidth =
args.value<vector<double> >(
"SiReenforcementWidth");
100 vector<double> siReenforceYPos =
args.value<vector<double> >(
"SiReenforcementPosY");
101 double siReenforceThick =
args.value<
double>(
"SiReenforcementThick");
102 string siReenforceMat =
args.value<
string>(
"SiReenforcementMaterial");
105 <<
" Height " << fullHeight <<
" dl(Top) " << dlTop <<
" dl(Bottom) " << dlBottom
106 <<
" dl(Hybrid) " << dlHybrid <<
" rPos " << rPos <<
" standrad rotation " << standardRot;
107 edm::LogVerbatim(
"TECGeom") <<
"debug: Frame Width " << frameWidth <<
" Thickness " << frameThick <<
" Overlap "
109 edm::LogVerbatim(
"TECGeom") <<
"debug: Top Frame Material " << topFrameMat <<
" Height " << topFrameHeight
110 <<
" Top Width " << topFrameTopWidth <<
" Bottom Width " << topFrameTopWidth
111 <<
" Thickness " << topFrameThick <<
" positioned at" << topFrameZ;
112 edm::LogVerbatim(
"TECGeom") <<
"debug : Side Frame Material " << sideFrameMat <<
" Thickness " << sideFrameThick
113 <<
" left Leg's Width: " << sideFrameLWidth <<
" left Leg's Height: " << sideFrameLHeight
114 <<
" left Leg's tilt(theta): " << sideFrameLtheta
115 <<
" right Leg's Width: " << sideFrameRWidth
116 <<
" right Leg's Height: " << sideFrameRHeight
117 <<
" right Leg's tilt(theta): " << sideFrameRtheta
118 <<
"Supplies Box's Material: " << siFrSuppBoxMat <<
" positioned at" << sideFrameZ;
119 for (
int i = 0;
i < (
int)(siFrSuppBoxWidth.size());
i++)
120 edm::LogVerbatim(
"TECGeom") <<
" Supplies Box" <<
i <<
"'s Width: " << siFrSuppBoxWidth[
i] <<
" Supplies Box" <<
i
121 <<
"'s Height: " << siFrSuppBoxHeight[
i] <<
" Supplies Box" <<
i
122 <<
"'s y Position: " << siFrSuppBoxYPos[
i];
123 edm::LogVerbatim(
"TECGeom") <<
"debug: Wafer Material " << waferMat <<
" Side Width Top" << sideWidthTop
124 <<
" Side Width Bottom" << sideWidthBottom <<
" and positioned at " << waferPosition
125 <<
" positioned with rotation"
126 <<
" matrix:" << waferRot;
127 edm::LogVerbatim(
"TECGeom") <<
"debug: Active Material " << activeMat <<
" Height " << activeHeight <<
" rotated by "
128 << activeRot <<
" translated by (0,0," << -0.5 * backplaneThick <<
")"
129 <<
" Thickness/Z" << waferThick - backplaneThick <<
"/" << activeZ;
130 edm::LogVerbatim(
"TECGeom") <<
"debug: Hybrid Material " << hybridMat <<
" Height " << hybridHeight <<
" Width "
131 << hybridWidth <<
" Thickness " << hybridThick <<
" Z" << hybridZ;
132 edm::LogVerbatim(
"TECGeom") <<
"debug: Pitch Adapter Material " << pitchMat <<
" Height " << pitchHeight
133 <<
" Thickness " << pitchThick <<
" position with "
134 <<
" rotation " << pitchRot <<
" at Z" << pitchZ;
135 edm::LogVerbatim(
"TECGeom") <<
"debug: Bridge Material " << bridgeMat <<
" Width " << bridgeWidth <<
" Thickness "
136 << bridgeThick <<
" Height " << bridgeHeight <<
" Separation " << bridgeSep;
137 edm::LogVerbatim(
"TECGeom") <<
"FALTBOOT DDTECModuleAlgo debug : Si-Reenforcement Material " << sideFrameMat
138 <<
" Thickness " << siReenforceThick;
139 for (
int i = 0;
i < (
int)(siReenforceWidth.size());
i++)
140 edm::LogVerbatim(
"TECGeom") <<
" SiReenforcement" <<
i <<
"'s Width: " << siReenforceWidth[
i] <<
" SiReenforcement"
141 <<
i <<
"'s Height: " << siReenforceHeight[
i] <<
" SiReenforcement" <<
i
142 <<
"'s y Position: " << siReenforceYPos[
i];
145 edm::LogVerbatim(
"TECGeom") <<
"This is a normal module, in ring " << ringNo <<
"!";
147 edm::LogVerbatim(
"TECGeom") <<
"This is a stereo module, in ring " << ringNo <<
"!";
148 edm::LogVerbatim(
"TECGeom") <<
"Phi Position corrected by " << posCorrectionPhi <<
"*rad";
149 edm::LogVerbatim(
"TECGeom") <<
"debug: stereo Top Frame 2nd Part left Heigt " << topFrame2LHeight
150 <<
" right Height " << topFrame2RHeight <<
" Width " << topFrame2Width;
151 edm::LogVerbatim(
"TECGeom") <<
" left Leg's lower Width: " << sideFrameLWidthLow
152 <<
" right Leg's lower Width: " << sideFrameRWidthLow;
166 const double topFrameEndZ = 0.5 * (-waferPosition + fullHeight) + pitchHeight + hybridHeight - topFrameHeight;
167 string idName = ns.noNamespace(mother.name());
168 edm::LogVerbatim(
"TECGeom") <<
"idName: " <<
idName <<
" parent " << mother.name() <<
" namespace " << ns.name();
172 Material matter = ns.material(genMat);
173 double dzdif = fullHeight + topFrameHeight;
175 dzdif += 0.5 * (topFrame2LHeight + topFrame2RHeight);
177 double dxbot = 0.5 * dlBottom + frameWidth - frameOver;
178 double dxtop = 0.5 * dlHybrid + frameWidth - frameOver;
182 dxtop = 0.5 * dlTop + frameWidth - frameOver;
185 double dxdif = dxtop - dxbot;
190 double h1 = 0.5 * sideFrameThick;
191 double dz = 0.5 * sideFrameLHeight;
192 double bl1 = 0.5 * sideFrameLWidth;
194 double thet = sideFrameLtheta;
197 bl1 = 0.5 * sideFrameLWidthLow;
198 solid = Trap(
dz, thet, 0, h1, bl1, bl1, 0, h1, bl2, bl2, 0);
199 ns.addSolidNS(
name, solid);
200 edm::LogVerbatim(
"TECGeom") <<
"Solid: " <<
name <<
" " << solid.name() <<
" Trap made of " << sideFrameMat
201 <<
" of dimensions " <<
dz <<
", " << thet <<
", 0, " << h1 <<
", " << bl1 <<
", " << bl1
202 <<
", 0, " << h1 <<
", " << bl2 <<
", " << bl2 <<
", 0";
203 Volume sideFrameLeft(
name, solid, ns.material(sideFrameMat));
204 ns.addVolumeNS(sideFrameLeft);
206 double xpos = -0.5 * topFrameBotWidth + bl2 +
tan(fabs(thet)) *
dz;
207 double ypos = sideFrameZ;
208 double zpos = topFrameEndZ -
dz;
212 xpos -= 2 *
tan(fabs(thet)) *
dz;
216 xpos = -0.5 * topFrameBotWidth + bl2 *
cos(detTilt) +
dz *
sin(fabs(thet) + detTilt) /
cos(fabs(thet));
218 zpos = topFrameEndZ - topFrame2LHeight - 0.5 *
sin(detTilt) * (topFrameBotWidth - topFrame2Width) -
219 dz *
cos(detTilt + fabs(thet)) /
cos(fabs(thet)) + bl2 *
sin(detTilt) - 0.1_mm;
225 dd4hep::Transform3D(ns.rotation(waferRot),
226 dd4hep::Position(zpos + rPos, isStereo ? xpos + rPos *
sin(posCorrectionPhi) : xpos, ypos)));
230 h1 = 0.5 * sideFrameThick;
231 dz = 0.5 * sideFrameRHeight;
232 bl1 = bl2 = 0.5 * sideFrameRWidth;
233 thet = sideFrameRtheta;
235 bl1 = 0.5 * sideFrameRWidthLow;
236 solid = Trap(
dz, thet, 0, h1, bl1, bl1, 0, h1, bl2, bl2, 0);
237 ns.addSolidNS(
name, solid);
238 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Trap made of " << sideFrameMat
239 <<
" of dimensions " <<
dz <<
", " << thet <<
", 0, " << h1 <<
", " << bl1 <<
", " << bl1
240 <<
", 0, " << h1 <<
", " << bl2 <<
", " << bl2 <<
", 0";
241 Volume sideFrameRight(
name, solid, ns.material(sideFrameMat));
242 ns.addVolumeNS(sideFrameRight);
244 xpos = 0.5 * topFrameBotWidth - bl2 -
tan(fabs(thet)) *
dz;
246 zpos = topFrameEndZ -
dz;
249 xpos += 2 *
tan(fabs(thet)) *
dz;
252 xpos = 0.5 * topFrameBotWidth - bl2 *
cos(detTilt) -
dz *
sin(fabs(detTilt - fabs(thet))) /
cos(fabs(thet));
254 zpos = topFrameEndZ - topFrame2RHeight + 0.5 *
sin(detTilt) * (topFrameBotWidth - topFrame2Width) -
255 dz *
cos(detTilt - fabs(thet)) /
cos(fabs(thet)) - bl2 *
sin(detTilt) - 0.1_mm;
261 dd4hep::Transform3D(ns.rotation(waferRot),
262 dd4hep::Position(zpos + rPos, isStereo ? xpos + rPos *
sin(posCorrectionPhi) : xpos, ypos)));
264 matter = ns.material(siFrSuppBoxMat);
265 for (
int i = 0;
i < (
int)(siFrSuppBoxWidth.size());
i++) {
268 h1 = 0.5 * siFrSuppBoxThick;
269 dz = 0.5 * siFrSuppBoxHeight[
i];
270 bl1 = bl2 = 0.5 * siFrSuppBoxWidth[
i];
271 thet = sideFrameRtheta;
273 thet = -atan(fabs(sideFrameRWidthLow - sideFrameRWidth) / (2 * sideFrameRHeight) -
tan(fabs(thet)));
276 solid = Trap(
dz, thet, 0, h1, bl1, bl1, 0, h1, bl2, bl2, 0);
277 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Trap made of " << siFrSuppBoxMat
278 <<
" of dimensions " <<
dz <<
", 0, 0, " << h1 <<
", " << bl1 <<
", " << bl1 <<
", 0, "
279 << h1 <<
", " << bl2 <<
", " << bl2 <<
", 0";
281 ns.addVolumeNS(siFrSuppBox);
283 xpos = 0.5 * topFrameBotWidth - sideFrameRWidth - bl1 - siFrSuppBoxYPos[
i] *
tan(fabs(thet));
285 (0.5 + (siFrSuppBoxThick / sideFrameThick));
286 zpos = topFrameEndZ - siFrSuppBoxYPos[
i];
288 xpos += 2 * fabs(
tan(thet)) * siFrSuppBoxYPos[
i];
292 xpos = 0.5 * topFrameBotWidth - (sideFrameRWidth + bl1) *
cos(detTilt) -
293 sin(fabs(detTilt - fabs(thet))) *
294 (siFrSuppBoxYPos[
i] +
dz * (1 /
cos(thet) -
cos(detTilt)) + bl1 *
sin(detTilt));
296 zpos = topFrameEndZ - topFrame2RHeight - 0.5 *
sin(detTilt) * (topFrameBotWidth - topFrame2Width) -
297 siFrSuppBoxYPos[
i] -
sin(detTilt) * sideFrameRWidth;
300 mother.placeVolume(siFrSuppBox,
303 ns.rotation(waferRot),
304 dd4hep::Position(zpos + rPos, isStereo ? xpos + rPos *
sin(posCorrectionPhi) : xpos, ypos)));
309 double dx = 0.5 * hybridWidth;
310 double dy = 0.5 * hybridThick;
311 dz = 0.5 * hybridHeight;
313 ns.addSolidNS(
name, solid);
314 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Box made of " << hybridMat
315 <<
" of dimensions " <<
dx <<
", " <<
dy <<
", " <<
dz;
316 Volume hybrid(
name, solid, ns.material(hybridMat));
317 ns.addVolumeNS(hybrid);
320 zpos = 0.5 * (-waferPosition + fullHeight + hybridHeight) + pitchHeight;
327 dd4hep::Transform3D(ns.rotation(standardRot),
332 bl1 = 0.5 * dlBottom;
334 h1 = 0.5 * waferThick;
335 dz = 0.5 * fullHeight;
336 solid = Trap(
dz, 0, 0, h1, bl1, bl1, 0, h1, bl2, bl2, 0);
337 ns.addSolidNS(
name, solid);
338 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Trap made of " << waferMat
339 <<
" of dimensions " <<
dz <<
", 0, 0, " << h1 <<
", " << bl1 <<
", " << bl1 <<
", 0, "
340 << h1 <<
", " << bl2 <<
", " << bl2 <<
", 0";
341 Volume wafer(
name, solid, ns.material(waferMat));
344 zpos = -0.5 * waferPosition;
351 dd4hep::Transform3D(ns.rotation(waferRot),
356 bl1 -= sideWidthBottom;
358 dz = 0.5 * (waferThick - backplaneThick);
359 h1 = 0.5 * activeHeight;
365 solid = Trap(
dz, 0, 0, h1, bl2, bl1, 0, h1, bl2, bl1, 0);
366 ns.addSolidNS(
name, solid);
367 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Trap made of " << activeMat
368 <<
" of dimensions " <<
dz <<
", 0, 0, " << h1 <<
", " << bl2 <<
", " << bl1 <<
", 0, "
369 << h1 <<
", " << bl2 <<
", " << bl1 <<
", 0";
370 Volume active(
name, solid, ns.material(activeMat));
371 ns.addVolumeNS(active);
374 active, 1, dd4hep::Transform3D(ns.rotation(activeRot),
dd4hep::Position(0., -0.5 * backplaneThick, 0.)));
378 inactivePos -= fullHeight - activeHeight;
380 bl1 = 0.5 * dlBottom - sideWidthBottom +
381 ((0.5 * dlTop - sideWidthTop - 0.5 * dlBottom + sideWidthBottom) / activeHeight) *
382 (activeHeight - inactivePos - inactiveDy);
383 bl2 = 0.5 * dlBottom - sideWidthBottom +
384 ((0.5 * dlTop - sideWidthTop - 0.5 * dlBottom + sideWidthBottom) / activeHeight) *
385 (activeHeight - inactivePos + inactiveDy);
386 dz = 0.5 * (waferThick - backplaneThick);
393 solid = Trap(
dz, 0, 0, h1, bl2, bl1, 0, h1, bl2, bl1, 0);
394 ns.addSolidNS(
name, solid);
395 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Trap made of " << inactiveMat
396 <<
" of dimensions " <<
dz <<
", 0, 0, " << h1 <<
", " << bl2 <<
", " << bl1 <<
", 0, "
397 << h1 <<
", " << bl2 <<
", " << bl1 <<
", 0";
398 Volume inactive(
name, solid, ns.material(inactiveMat));
399 ns.addVolumeNS(inactive);
400 ypos = inactivePos - 0.5 * activeHeight;
407 dx = 0.5 * pitchWidth;
408 dy = 0.5 * pitchThick;
409 dz = 0.5 * pitchHeight;
411 ns.addSolidNS(
name, solid);
412 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Box made of " << pitchMat
413 <<
" of dimensions " <<
dx <<
", " <<
dy <<
", " <<
dz;
415 dz = 0.5 * pitchWidth;
416 h1 = 0.5 * pitchThick;
417 bl1 = 0.5 * pitchHeight + 0.5 *
dz *
sin(detTilt);
418 bl2 = 0.5 * pitchHeight - 0.5 *
dz *
sin(detTilt);
419 thet = atan((bl1 - bl2) / (2. *
dz));
420 solid = Trap(
dz, thet, 0, h1, bl1, bl1, 0, h1, bl2, bl2, 0);
421 ns.addSolidNS(
name, solid);
422 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Trap made of " << pitchMat
423 <<
" of dimensions " <<
dz <<
", " <<
convertRadToDeg(thet) <<
", 0, " << h1 <<
", "
424 << bl1 <<
", " << bl1 <<
", 0, " << h1 <<
", " << bl2 <<
", " << bl2 <<
", 0";
428 zpos = 0.5 * (-waferPosition + fullHeight + pitchHeight);
432 xpos = 0.5 * fullHeight *
sin(detTilt);
434 Volume pa(
name, solid, ns.material(pitchMat));
436 mother.placeVolume(pa,
438 dd4hep::Transform3D(ns.rotation(pitchRot),
441 mother.placeVolume(pa, 1, dd4hep::Transform3D(ns.rotation(standardRot),
dd4hep::Position(zpos + rPos, xpos, ypos)));
445 h1 = 0.5 * topFrameThick;
446 dz = 0.5 * topFrameHeight;
447 bl1 = 0.5 * topFrameBotWidth;
448 bl2 = 0.5 * topFrameTopWidth;
450 bl1 = 0.5 * topFrameTopWidth;
451 bl2 = 0.5 * topFrameBotWidth;
454 solid = Trap(
dz, 0, 0, h1, bl1, bl1, 0, h1, bl2, bl2, 0);
455 ns.addSolid(
name, solid);
456 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Trap made of " << topFrameMat
457 <<
" of dimensions " <<
dz <<
", 0, 0, " << h1 <<
", " << bl1 <<
", " << bl1 <<
", 0, "
458 << h1 <<
", " << bl2 <<
", " << bl2 <<
", 0";
459 Volume topFrame(
name, solid, ns.material(topFrameMat));
460 ns.addVolumeNS(topFrame);
465 dz = 0.5 * topFrame2Width;
466 h1 = 0.5 * topFrameThick;
467 bl1 = 0.5 * topFrame2LHeight;
468 bl2 = 0.5 * topFrame2RHeight;
469 thet = atan((bl1 - bl2) / (2. *
dz));
471 solid = Trap(
dz, thet, 0, h1, bl1, bl1, 0, h1, bl2, bl2, 0);
472 ns.addSolid(
name, solid);
473 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Trap made of " << topFrameMat
474 <<
" of dimensions " <<
dz <<
", " <<
convertRadToDeg(thet) <<
", 0, " << h1 <<
", "
475 << bl1 <<
", " << bl1 <<
", 0, " << h1 <<
", " << bl2 <<
", " << bl2 <<
", 0";
480 zpos = 0.5 * (-waferPosition + fullHeight - topFrameHeight) + pitchHeight + hybridHeight;
488 dd4hep::Transform3D(ns.rotation(standardRot),
492 Volume topFrame2(
name, solid, ns.material(topFrameMat));
493 zpos -= 0.5 * (topFrameHeight + 0.5 * (topFrame2LHeight + topFrame2RHeight));
497 dd4hep::Transform3D(ns.rotation(pitchRot),
dd4hep::Position(zpos + rPos, rPos *
sin(posCorrectionPhi), ypos)));
501 matter = ns.material(siReenforceMat);
502 for (
int i = 0;
i < (
int)(siReenforceWidth.size());
i++) {
504 h1 = 0.5 * siReenforceThick;
505 dz = 0.5 * siReenforceHeight[
i];
506 bl1 = bl2 = 0.5 * siReenforceWidth[
i];
507 solid = Trap(
dz, 0, 0, h1, bl1, bl1, 0, h1, bl2, bl2, 0);
508 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Trap made of " << matter.name()
509 <<
" of dimensions " <<
dz <<
", 0, 0, " << h1 <<
", " << bl1 <<
", " << bl1 <<
", 0, "
510 << h1 <<
", " << bl2 <<
", " << bl2 <<
", 0";
512 ns.addVolumeNS(siReenforce);
516 zpos = topFrameEndZ -
dz - siReenforceYPos[
i];
521 xpos = (-siReenforceYPos[
i] + 0.5 * fullHeight) *
sin(detTilt);
525 zpos -= topFrame2RHeight +
sin(fabs(detTilt)) * 0.5 * topFrame2Width;
528 mother.placeVolume(siReenforce,
531 ns.rotation(waferRot),
532 dd4hep::Position(zpos + rPos, isStereo ? xpos + rPos *
sin(posCorrectionPhi) : xpos, ypos)));
536 if (bridgeMat !=
"None") {
538 bl2 = 0.5 * bridgeSep + bridgeWidth;
539 bl1 = bl2 - bridgeHeight * dxdif / dzdif;
540 h1 = 0.5 * bridgeThick;
541 dz = 0.5 * bridgeHeight;
542 solid = Trap(
dz, 0, 0, h1, bl1, bl1, 0, h1, bl2, bl2, 0);
543 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Trap made of " << bridgeMat
544 <<
" of dimensions " <<
dz <<
", 0, 0, " << h1 <<
", " << bl1 <<
", " << bl1 <<
", 0, "
545 << h1 <<
", " << bl2 <<
", " << bl2 <<
", 0";
546 Volume bridge(
name, solid, ns.material(bridgeMat));
547 ns.addVolumeNS(bridge);
550 bl1 = 0.5 * bridgeSep;
551 solid = Box(bl1, h1,
dz);
552 edm::LogVerbatim(
"TECGeom") <<
"Solid:\t" <<
name <<
" " << solid.name() <<
" Box made of " << genMat
553 <<
" of dimensions " << bl1 <<
", " << h1 <<
", " <<
dz;
554 Volume bridgeGap(
name, solid, ns.material(genMat));
555 ns.addVolumeNS(bridgeGap);
556 bridge.placeVolume(bridgeGap, 1);
557 edm::LogVerbatim(
"TECGeom") <<
"Solid: " << bridgeGap.name() <<
" number 1 positioned in " << bridge.name()
558 <<
" at (0,0,0) with no rotation";
560 edm::LogVerbatim(
"TECGeom") <<
"<<== End of DDTECModuleAlgo construction ...";