gpamela/gpspe/gpspev.F


*
* $Id: gpspev.F,v 3.8 2006/05/02 12:02:43 bottai Exp $
*
* $Log: gpspev.F,v $
* Revision 3.8  2006/05/02 12:02:43  bottai
* micrometric adjustment of spe geometry
*
* Revision 3.7  2005/12/16 10:20:23  cafagna
* Bug fixed in the new update
*
* Revision 3.6  2005/12/16 09:13:59  cafagna
* New small valume added to the tracker frame
*
* Revision 3.5  2005/12/13 10:31:29  pam-ba
* added a new volume, TPGI, in the spectrometer
*
* Revision 3.4  2005/12/05 12:15:21  pam-ba
* new spectrometer geometry and internal magnetic field
*
* Revision 3.3  2005/07/25 11:53:21  cafagna
* Several updates. See history for details
*
* Revision 3.2  2005/06/21 02:42:27  cafagna
* Major modification to the geometry and to the random number chain
*
* Revision 3.1.1.1  2002/07/11 16:02:14  cafagna
* First GPAMELA release on CVS
*
*
*CMZ :  2.01/00 05/04/2000  14.35.18  by  Marialuigia Ambriola
*CMZ :  2.00/00 03/03/2000  15.39.06  by  Francesco Cafagna
*CMZ :  1.02/00 07/03/97  14.48.41  by  Francesco Cafagna
*CMZ :  1.00/02 06/02/96  17.34.50  by  Francesco Cafagna
*-- Author :    Francesco Cafagna   09/12/95
      SUBROUTINE GPSPEV
************************************************************************
*                                                                      *
* Volumes definition for the silicon tracking system and magnet        *
* Called by: GPGEM                                                     *
* Author: Francesco Cafagna, 05/12/95 13.39.41                         *
*                                                                      *
************************************************************************
#include "gpgeo.inc"
#include "gpmed.inc"
*
      INTEGER IROT,IVOLU,N,NMED,NUM
      REAL X,Y,Z
*
*  Define the SPEB     volume
*
      NMED= MN2
      CALL GSVOLU('SPEB','BOX ',NMED,SPEB, 3,IVOLU)
*
*  Define the MGFR     volume
*
      NMED= MAL
      CALL GSVOLU('MGFR','BOX ',NMED,MGFR, 3,IVOLU)
*
*  Define the MGPL     volume
*
      NMED= MMAG
      CALL GSVOLU('MGPL','BOX ',NMED,MGPL, 3,IVOLU)
*
*  Define the MGPI     volume
*
      NMED= MN2
      CALL GSVOLU('MGPI','BOX ',NMED,MGPI, 3,IVOLU)
*
*  Define the TRPB     volume
*
      NMED= MAL
      CALL GSVOLU('TRPB','BOX ',NMED,TRPB, 3,IVOLU)
*****
cC ml 20/04/05:
*
cc*  Define the TRPL     volume
*  Define the TPAS and TPAI volume
*
      NMED= MN2
CC      CALL GSVOLU('TRPL','BOX ',NMED,TRPL, 3,IVOLU)
      CALL GSVOLU('TPAS','BOX ',NMED,TPAS, 3,IVOLU)
      NMED= MAL
      CALL GSVOLU('TPAI','BOX ',NMED,TPAI, 3,IVOLU)
CC end ml.
****************
*
*  Define the TRSL     volume
*
c ml: 26/11/04:
c      NMED= MN2
      NMED=MSIT
      CALL GSVOLU('TRSL','BOX ',NMED,TRSL, 3,IVOLU)
*
* Define the THBP volume
*
      NMED=MG10C
      CALL GSVOLU('THBP','BOX ',NMED,THBP, 3,IVOLU)
C end ml.
*
*  Define the TSPA     volume
*
      NMED= MSIT
      CALL GSVOLU('TSPA','BOX ',NMED,TSPA, 3,IVOLU)
*
*  Define the TRCP     volume
*
      NMED= MCF
      CALL GSVOLU('TRCP','BOX ',NMED,TRCP, 3,IVOLU)
*
*  Define the TBAL     volume
*
      NMED= MAL
      CALL GSVOLU('TBAL','BOX ',NMED,TBAL, 3,IVOLU)
*
*  Define the MGPA     volume
*
      NMED= MAL
      CALL GSVOLU('MGPA','BOX ',NMED,MGPA, 3,IVOLU)
*
*  Define the TPGA     volume
*
      NMED= MN2
      CALL GSVOLU('TPGA','BOX ',NMED,TPGA, 3,IVOLU)
*
*  Define the TPGI     volume
*
      NMED= MN2
      CALL GSVOLU('TPGI','BOX ',NMED,TPGI, 3,IVOLU)
*
*  Define the TPGU     volume
*
      NMED= MN2
      CALL GSVOLU('TPGU','BOX ',NMED,TPGU, 3,IVOLU)
*
*  Define the TPGD     volume
*
      NMED= MN2
      CALL GSVOLU('TPGD','BOX ',NMED,TPGD, 3,IVOLU)

*
* Positioning volume TSPA     into the mother TRSL
*
      GLUEX=XGLUE-0.0005
      GLUEY=XGLUE
      N= 1
      X= 0.
      Y= 0.
      Z= 0.
      CALL GSPOS('TSPA',N,'TRSL',X,Y,Z,0,'ONLY')
C #       N= 2
C # C      Y= Y - 2.*TSPA(2)
C #       Y=-TRSL(2)/2
C #       CALL GSPOS('TSPA',N,'TRSL',X,Y,Z,0,'ONLY')
c ml: 26/11/04:
* Positioning volume TRCP into mother TPAS
C # Caf mod on 19 Jul 2005 all volumes are placed inside the TPAS one
C #       Z=-TRPB(3)+0.11+TRCP(3)
C #       Y=-TRPB(2)+1.5-0.225+TRCP(2)
CC end ml.
c      Z=-TRPB(3)+2*TPAI(3)+TRCP(3)
      Z=TRPB(3)-2*TPAI(3)-TRCP(3)
      y=-TPAS(2)+TRCP(2)
C # end CAF mod
      TPASSPACE=TPAS(1)-(3*TRSL(1)+4*TRCP(1)+3*GLUEX)
      DO I=1,4
CC ml 20/04/05:         
CC         X=-TRPL(1)+(2*I-1)*TRCP(1)+2*(I-1)*TRSL(1)
C # Caf mod on 19 Jul 2005 all volumes are placed inside the TPAS one
C #          X=-TRPB(1)+2.29+(2*I-1)*TRCP(1)+2*(I-1)*TRSL(1)
c ml: 19/9/05: introducing the glue between TRCP and the silicon ladders.
c              for now the glue is a space of nitrogen of 0.015 mm 
c         X=-TPAS(1)+(2*I-1)*TRCP(1)+2*(I-1)*TRSL(1)
C Ml. 15/12/05: introducing a space (along x) between the inner part of the
c  aluminum frame and respectively the first and the last carbon fiber barrel.
c It is has been done increasing the dimension of TPAS along x:
C         X=-TPAS(1)+2*(I-1)*XGLUE+(2*I-1)*TRCP(1)+2*(I-1)*TRSL(1)
         X=-TPAS(1)+TPASSPACE+2*(I-1)*GLUEX+(2*I-1)*TRCP(1)+
     +      2*(I-1)*TRSL(1)
CC end ml
         CALL GSPOS('TRCP',I,'TPAS',X,Y,Z,0,'ONLY')
C # end CAF mod
      ENDDO  
cc ml 20/04/05:
* Positioning volume TRSL     into the mother TPAS
C # Caf mod on 19 Jul 2005 all volumes are placed inside the TPAS one
C #       Y=-TRPB(2)+1.5+2*THBP(2)+TRSL(2)
C      Y=2.75
CC      Z= 0.
C      Z=-0.005
c      Z=-TRPB(3)+2*TPAI(3)+TRCP(3)
      Z=TRPB(3)-2*TPAI(3)-TRCP(3)
      DO I=1, NTRSL
c ml: 20/9/05 introducing the glue between TRCP and the silicon ladders.
c         X=-TPAS(1)+2*(MOD(I-1,3)+1)*TRCP(1)+
c     +        (2*(MOD(I-1,3)+1)-1)*TRSL(1)
         X=-TPAS(1)+TPASSPACE+2*(MOD(I-1,3)+1)*TRCP(1)+
     +   (2*(MOD(I-1,3)+1)-1)*GLUEX+(2*(MOD(I-1,3)+1)-1)*TRSL(1)
         IF(I.LE.3) THEN
C ml: 22/9/05:
c            Y=TPAS(2)-TRSL(2)
            Y=TPAS(2)-0.1485+0.0005-TRSL(2)
         ELSE
C            Y=TPAS(2)-3*TRSL(2)
            Y=TPAS(2)-0.1485-GLUEY-3*TRSL(2)
         ENDIF
         CALL GSPOS('TRSL',I,'TPAS',X,Y,Z,0,'ONLY')
      ENDDO
C # end CAF mod
**********
cc ml: 20/04/05
* Positioning volume THBP     into the mother TPAS
C # Caf mod on 19 Jul 2005 all volumes are placed inside the TPAS one
C #       Y=-TRPB(2)+1.5+THBP(2)
C # cc      Z= 0.
C #       Z=-TRPB(3)+0.11+TRCP(3)
c ml: 22/9/05:
c      Y=-TPAS(2)+THBP(2)
      Y=-TPAS(2)+0.1485+THBP(2)
C      Z=-0.005
c      Z=-TRPB(3)+2*TPAI(3)+TRCP(3)
      Z=TRPB(3)-2*TPAI(3)-TRCP(3)
      DO I=1, NTHBP
CC         X= -TRPL(1) + 2*I*TRCP(1)+(2*I-1)*THBP(1)
C #          X=-TRPB(1)+2.29+2*I*TRCP(1)+(2*I-1)*THBP(1)
c ml: 21/9/05 introducing the glue between the carbon barrel and the silicon
c       ladders 
c         X=-TPAS(1)+2*I*TRCP(1)+(2*I-1)*THBP(1)
         X=-TPAS(1)+TPASSPACE+2*I*TRCP(1)+(2*I-1)*THBP(1)+
     +      (2*(MOD(I-1,3)+1)-1)*GLUEX
         CALL GSPOS('THBP',I,'TPAS',X,Y,Z,0,'ONLY')
      ENDDO
c end ml.
cc ml: 20/04/05
*
* Positioning volume TPAI into the mother TPAS
*
C # Mod By Caf on 19th Jul 2005 all volumes inside the TPAS
      X=0
      Y=-TPAS(2)+TPAI(2)
c      Z=-TPAS(3)+TPAI(3)
      Z=TRPB(3)-TPAI(3)
C #       X=-TRPB(1)+2.29+TPAI(1)
C #       Y=-TRPB(2)+1.5+2.5+TPAI(2)
C #       Z=-TRPB(3)+TPAI(3)
      CALL GSPOS('TPAI',I,'TPAS',X,Y,Z,0,'ONLY')
C # end CAF mod
*
* Positioning volume TPAS into the mother TRPB
*
C # Mod By Caf on 15th Jul 2005
      X=0
      Y=-TRPB(2)+1.5+TPAS(2)
      Z=0
C #       X=-TRPB(1)+2.29+TPAS(1)
C #       Y=-TRPB(2)+1.5+TPAS(2)
C #       Z=-TRPB(3)+0.11+2*TRCP(3)+TPAS(3)
      CALL GSPOS('TPAS',I,'TRPB',X,Y,Z,0,'ONLY')
c end ml.
*
* Positioning volume MGPA     into the mother MGPL
*
      N= 1
      X= 0.
      Y= 0.
      Z= 0.
      CALL GSPOS('MGPA',N,'MGPL',X,Y,Z,0,'ONLY')
*
* Positioning volume TPGD     into the mother MGFR
*
      X=0.
      Z=-MGFR(3)+TPGD(3)
      Y=0.
      CALL GSPOS('TPGD',N,'MGFR',X,Y,Z,0,'ONLY')
*
* Positioning volume TPGI     into the mother MGFR under MGPL 
*
      N=1
      X=0.
      Z=-MGFR(3)+2*TPGD(3)+TPGI(3)
      Y=0.
      CALL GSPOS('TPGI',N,'MGFR',X,Y,Z,0,'ONLY')
*
* Positioning volume MGPI     into the mother MGPL
*
      N= 1
      X= 0.
      Y= 0.
CC ML 10/11/05:  Positioning volume MGPI     into the mother MGPA
      Z= 0.
      CALL GSPOS('MGPI',N,'MGPA',X,Y,Z,0,'ONLY')
C      Z= -MGFR(3)+2*TPGD(3)+MGPI(3)
C      CALL GSPOS('MGPI',N,'MGFR',X,Y,Z,0,'ONLY')
*
* Positioning volume MGPL     into the mother MGFR
*
c ml: 10/11/05
      N=1
c      Z=-MGFR(3)+MGPL(3)
      Z=-MGFR(3)+2*(TPGD(3)+TPGI(3))+MGPL(3)
      CALL GSPOS('MGPL',N,'MGFR',X,Y,Z,0,'ONLY')
*
* Positioning volume TPGI     into the mother MGFR above MGPL
*
      N=2
      X=0.
      Z=-MGFR(3)+2*(TPGD(3)+TPGI(3)+MGPL(3))+TPGI(3)
      Y=0.
      CALL GSPOS('TPGI',N,'MGFR',X,Y,Z,0,'ONLY')
*
* Positioning volume TPGA     into the mother MGFR
*
C ML: 10/11/05
      N=1
      X=0.
      Y=MGFR(2)-2*(MGFR(2)-TRPB(2))-TPGA(2)
C      Z=-MGFR(3)+2*MGPL(3)+TPGA(3)
C      Z=MGFR(3)-2*TPGU(3)-2*TRPB(3)-TPGA(3)
      Z=-MGFR(3)+2*(TPGD(3)+TPGI(3)+MGPL(3)+TPGI(3))+TPGA(3)
C      Y=-0.75
      CALL GSPOS('TPGA',N,'MGFR',X,Y,Z,0,'ONLY')
*
* Positioning volumes TRPB & MGPL into the mother SPEB
*
      N= 1
      X= 0.
C      Y= SPEB(2) - TRPB(2)
      Y= -MGFR(2) + TRPB(2)
C      Z= SPEB(3) - TRPB(3)
c      Z=-MGFR(3)+2*MGPL(3)+2*TPGA(3)+TRPB(3)
C      Z=MGFR(3)-2*TPGU(3)-TRPB(3)
      Z=-MGFR(3)+2*(TPGD(3)+TPGI(3)+MGPL(3)+TPGI(3)+TPGA(3))+TRPB(3)
C      CALL GSPOS('TRPB',N,'SPEB',X,Y,Z,0,'ONLY')
      CALL GSPOS('TRPB',N,'MGFR',X,Y,Z,0,'ONLY')
c      CALL GSPOS('TRPB',N,'MGFR',X,Y,Z,9,'ONLY')
      Z=SPEB(3)
      DO I=1, 5
         X= 0.
         Y= 0.
C         Z= Z - TRPB(3) - MGFR(3)
         Z=Z-MGFR(3)
         N= I
         CALL GSPOS('MGFR',N,'SPEB',X,Y,Z,0,'ONLY')
C         Y= SPEB(2) - TRPB(2)
C         Z= Z - MGFR(3) - TRPB(3)
C         N= (I+1)
C         IF(I.EQ.5) THEN
CC            CALL GSPOS('TRPB',N,'SPEB',X,Y,Z,10,'ONLY')
C            CALL GSPOS('TRPB',N,'MGFR',X,Y,Z,10,'ONLY')
C         ELSE
CC            CALL GSPOS('TRPB',N,'SPEB',X,Y,Z,0,'ONLY')
C            CALL GSPOS('TRPB',N,'MGFR',X,Y,Z,0,'ONLY')
C         ENDIF
         Z=Z-MGFR(3)
      ENDDO
      N=2
      X=0.
      Y=MGFR(2) - TRPB(2)
      Z=Z-TRPB(3)
      ZTRPB=Z
c      CALL GSPOS('TRPB',N,'SPEB',X,Y,Z,4,'ONLY')
      CALL GSPOS('TRPB',N,'SPEB',X,Y,Z,10,'ONLY')
*
* Positioning volume TBAL into the mother SPEB
*
      DO I=1,2
C DTBAL is the distance along x of the volumes TBAL from the end of TRPB
         DTBAL=3.6
         N=I
         IF(I.EQ.1) THEN
            X=TRPB(1)-3.6-TBAL(1)
         ELSE
            X=-(TRPB(1)-3.6-TBAL(1))
         ENDIF
         Y=MGFR(2) - 2*TRPB(2)-TBAL(2)
         Z=ZTRPB
         CALL GSPOS('TBAL',N,'SPEB',X,Y,Z,0,'ONLY')
      ENDDO
*
* Positioning volume TPGU     into the mother MGFR
*
      X=0.
C      Z=MGFR(3)-TPGU(3)
      Z=-MGFR(3)+2*(TPGD(3)+TPGI(3)+MGPL(3)+TPGI(3)+TPGA(3)+TRPB(3))+
     +   TPGU(3)      
      Y=-MGFR(2)+TRPB(2)
      CALL GSPOS('TPGU',N,'MGFR',X,Y,Z,0,'ONLY')
*
      RETURN
      END
1
2	*
3	* $Id: gpspev.F,v 3.8 2006/05/02 12:02:43 bottai Exp $
4	*
5	* $Log: gpspev.F,v $
6	* Revision 3.8 2006/05/02 12:02:43 bottai
7	* micrometric adjustment of spe geometry
8	*
9	* Revision 3.7 2005/12/16 10:20:23 cafagna
10	* Bug fixed in the new update
11	*
12	* Revision 3.6 2005/12/16 09:13:59 cafagna
13	* New small valume added to the tracker frame
14	*
15	* Revision 3.5 2005/12/13 10:31:29 pam-ba
16	* added a new volume, TPGI, in the spectrometer
17	*
18	* Revision 3.4 2005/12/05 12:15:21 pam-ba
19	* new spectrometer geometry and internal magnetic field
20	*
21	* Revision 3.3 2005/07/25 11:53:21 cafagna
22	* Several updates. See history for details
23	*
24	* Revision 3.2 2005/06/21 02:42:27 cafagna
25	* Major modification to the geometry and to the random number chain
26	*
27	* Revision 3.1.1.1 2002/07/11 16:02:14 cafagna
28	* First GPAMELA release on CVS
29	*
30	*
31	*CMZ : 2.01/00 05/04/2000 14.35.18 by Marialuigia Ambriola
32	*CMZ : 2.00/00 03/03/2000 15.39.06 by Francesco Cafagna
33	*CMZ : 1.02/00 07/03/97 14.48.41 by Francesco Cafagna
34	*CMZ : 1.00/02 06/02/96 17.34.50 by Francesco Cafagna
35	*-- Author : Francesco Cafagna 09/12/95
36	SUBROUTINE GPSPEV
37	************************************************************************
38	* *
39	* Volumes definition for the silicon tracking system and magnet *
40	* Called by: GPGEM *
41	* Author: Francesco Cafagna, 05/12/95 13.39.41 *
42	* *
43	************************************************************************
44	#include "gpgeo.inc"
45	#include "gpmed.inc"
46	*
47	INTEGER IROT,IVOLU,N,NMED,NUM
48	REAL X,Y,Z
49	*
50	* Define the SPEB volume
51	*
52	NMED= MN2
53	CALL GSVOLU('SPEB','BOX ',NMED,SPEB, 3,IVOLU)
54	*
55	* Define the MGFR volume
56	*
57	NMED= MAL
58	CALL GSVOLU('MGFR','BOX ',NMED,MGFR, 3,IVOLU)
59	*
60	* Define the MGPL volume
61	*
62	NMED= MMAG
63	CALL GSVOLU('MGPL','BOX ',NMED,MGPL, 3,IVOLU)
64	*
65	* Define the MGPI volume
66	*
67	NMED= MN2
68	CALL GSVOLU('MGPI','BOX ',NMED,MGPI, 3,IVOLU)
69	*
70	* Define the TRPB volume
71	*
72	NMED= MAL
73	CALL GSVOLU('TRPB','BOX ',NMED,TRPB, 3,IVOLU)
74	*****
75	cC ml 20/04/05:
76	*
77	cc* Define the TRPL volume
78	* Define the TPAS and TPAI volume
79	*
80	NMED= MN2
81	CC CALL GSVOLU('TRPL','BOX ',NMED,TRPL, 3,IVOLU)
82	CALL GSVOLU('TPAS','BOX ',NMED,TPAS, 3,IVOLU)
83	NMED= MAL
84	CALL GSVOLU('TPAI','BOX ',NMED,TPAI, 3,IVOLU)
85	CC end ml.
86	****************
87	*
88	* Define the TRSL volume
89	*
90	c ml: 26/11/04:
91	c NMED= MN2
92	NMED=MSIT
93	CALL GSVOLU('TRSL','BOX ',NMED,TRSL, 3,IVOLU)
94	*
95	* Define the THBP volume
96	*
97	NMED=MG10C
98	CALL GSVOLU('THBP','BOX ',NMED,THBP, 3,IVOLU)
99	C end ml.
100	*
101	* Define the TSPA volume
102	*
103	NMED= MSIT
104	CALL GSVOLU('TSPA','BOX ',NMED,TSPA, 3,IVOLU)
105	*
106	* Define the TRCP volume
107	*
108	NMED= MCF
109	CALL GSVOLU('TRCP','BOX ',NMED,TRCP, 3,IVOLU)
110	*
111	* Define the TBAL volume
112	*
113	NMED= MAL
114	CALL GSVOLU('TBAL','BOX ',NMED,TBAL, 3,IVOLU)
115	*
116	* Define the MGPA volume
117	*
118	NMED= MAL
119	CALL GSVOLU('MGPA','BOX ',NMED,MGPA, 3,IVOLU)
120	*
121	* Define the TPGA volume
122	*
123	NMED= MN2
124	CALL GSVOLU('TPGA','BOX ',NMED,TPGA, 3,IVOLU)
125	*
126	* Define the TPGI volume
127	*
128	NMED= MN2
129	CALL GSVOLU('TPGI','BOX ',NMED,TPGI, 3,IVOLU)
130	*
131	* Define the TPGU volume
132	*
133	NMED= MN2
134	CALL GSVOLU('TPGU','BOX ',NMED,TPGU, 3,IVOLU)
135	*
136	* Define the TPGD volume
137	*
138	NMED= MN2
139	CALL GSVOLU('TPGD','BOX ',NMED,TPGD, 3,IVOLU)
140
141	*
142	* Positioning volume TSPA into the mother TRSL
143	*
144	GLUEX=XGLUE-0.0005
145	GLUEY=XGLUE
146	N= 1
147	X= 0.
148	Y= 0.
149	Z= 0.
150	CALL GSPOS('TSPA',N,'TRSL',X,Y,Z,0,'ONLY')
151	C # N= 2
152	C # C Y= Y - 2.*TSPA(2)
153	C # Y=-TRSL(2)/2
154	C # CALL GSPOS('TSPA',N,'TRSL',X,Y,Z,0,'ONLY')
155	c ml: 26/11/04:
156	* Positioning volume TRCP into mother TPAS
157	C # Caf mod on 19 Jul 2005 all volumes are placed inside the TPAS one
158	C # Z=-TRPB(3)+0.11+TRCP(3)
159	C # Y=-TRPB(2)+1.5-0.225+TRCP(2)
160	CC end ml.
161	c Z=-TRPB(3)+2*TPAI(3)+TRCP(3)
162	Z=TRPB(3)-2*TPAI(3)-TRCP(3)
163	y=-TPAS(2)+TRCP(2)
164	C # end CAF mod
165	TPASSPACE=TPAS(1)-(3TRSL(1)+4TRCP(1)+3*GLUEX)
166	DO I=1,4
167	CC ml 20/04/05:
168	CC X=-TRPL(1)+(2I-1)TRCP(1)+2(I-1)TRSL(1)
169	C # Caf mod on 19 Jul 2005 all volumes are placed inside the TPAS one
170	C # X=-TRPB(1)+2.29+(2I-1)TRCP(1)+2(I-1)TRSL(1)
171	c ml: 19/9/05: introducing the glue between TRCP and the silicon ladders.
172	c for now the glue is a space of nitrogen of 0.015 mm
173	c X=-TPAS(1)+(2I-1)TRCP(1)+2(I-1)TRSL(1)
174	C Ml. 15/12/05: introducing a space (along x) between the inner part of the
175	c aluminum frame and respectively the first and the last carbon fiber barrel.
176	c It is has been done increasing the dimension of TPAS along x:
177	C X=-TPAS(1)+2(I-1)XGLUE+(2I-1)TRCP(1)+2(I-1)TRSL(1)
178	X=-TPAS(1)+TPASSPACE+2(I-1)GLUEX+(2I-1)TRCP(1)+
179	+ 2(I-1)TRSL(1)
180	CC end ml
181	CALL GSPOS('TRCP',I,'TPAS',X,Y,Z,0,'ONLY')
182	C # end CAF mod
183	ENDDO
184	cc ml 20/04/05:
185	* Positioning volume TRSL into the mother TPAS
186	C # Caf mod on 19 Jul 2005 all volumes are placed inside the TPAS one
187	C # Y=-TRPB(2)+1.5+2*THBP(2)+TRSL(2)
188	C Y=2.75
189	CC Z= 0.
190	C Z=-0.005
191	c Z=-TRPB(3)+2*TPAI(3)+TRCP(3)
192	Z=TRPB(3)-2*TPAI(3)-TRCP(3)
193	DO I=1, NTRSL
194	c ml: 20/9/05 introducing the glue between TRCP and the silicon ladders.
195	c X=-TPAS(1)+2(MOD(I-1,3)+1)TRCP(1)+
196	c + (2(MOD(I-1,3)+1)-1)TRSL(1)
197	X=-TPAS(1)+TPASSPACE+2(MOD(I-1,3)+1)TRCP(1)+
198	+ (2(MOD(I-1,3)+1)-1)GLUEX+(2(MOD(I-1,3)+1)-1)TRSL(1)
199	IF(I.LE.3) THEN
200	C ml: 22/9/05:
201	c Y=TPAS(2)-TRSL(2)
202	Y=TPAS(2)-0.1485+0.0005-TRSL(2)
203	ELSE
204	C Y=TPAS(2)-3*TRSL(2)
205	Y=TPAS(2)-0.1485-GLUEY-3*TRSL(2)
206	ENDIF
207	CALL GSPOS('TRSL',I,'TPAS',X,Y,Z,0,'ONLY')
208	ENDDO
209	C # end CAF mod
210	**********
211	cc ml: 20/04/05
212	* Positioning volume THBP into the mother TPAS
213	C # Caf mod on 19 Jul 2005 all volumes are placed inside the TPAS one
214	C # Y=-TRPB(2)+1.5+THBP(2)
215	C # cc Z= 0.
216	C # Z=-TRPB(3)+0.11+TRCP(3)
217	c ml: 22/9/05:
218	c Y=-TPAS(2)+THBP(2)
219	Y=-TPAS(2)+0.1485+THBP(2)
220	C Z=-0.005
221	c Z=-TRPB(3)+2*TPAI(3)+TRCP(3)
222	Z=TRPB(3)-2*TPAI(3)-TRCP(3)
223	DO I=1, NTHBP
224	CC X= -TRPL(1) + 2ITRCP(1)+(2I-1)THBP(1)
225	C # X=-TRPB(1)+2.29+2ITRCP(1)+(2I-1)THBP(1)
226	c ml: 21/9/05 introducing the glue between the carbon barrel and the silicon
227	c ladders
228	c X=-TPAS(1)+2ITRCP(1)+(2I-1)THBP(1)
229	X=-TPAS(1)+TPASSPACE+2ITRCP(1)+(2I-1)THBP(1)+
230	+ (2(MOD(I-1,3)+1)-1)GLUEX
231	CALL GSPOS('THBP',I,'TPAS',X,Y,Z,0,'ONLY')
232	ENDDO
233	c end ml.
234	cc ml: 20/04/05
235	*
236	* Positioning volume TPAI into the mother TPAS
237	*
238	C # Mod By Caf on 19th Jul 2005 all volumes inside the TPAS
239	X=0
240	Y=-TPAS(2)+TPAI(2)
241	c Z=-TPAS(3)+TPAI(3)
242	Z=TRPB(3)-TPAI(3)
243	C # X=-TRPB(1)+2.29+TPAI(1)
244	C # Y=-TRPB(2)+1.5+2.5+TPAI(2)
245	C # Z=-TRPB(3)+TPAI(3)
246	CALL GSPOS('TPAI',I,'TPAS',X,Y,Z,0,'ONLY')
247	C # end CAF mod
248	*
249	* Positioning volume TPAS into the mother TRPB
250	*
251	C # Mod By Caf on 15th Jul 2005
252	X=0
253	Y=-TRPB(2)+1.5+TPAS(2)
254	Z=0
255	C # X=-TRPB(1)+2.29+TPAS(1)
256	C # Y=-TRPB(2)+1.5+TPAS(2)
257	C # Z=-TRPB(3)+0.11+2*TRCP(3)+TPAS(3)
258	CALL GSPOS('TPAS',I,'TRPB',X,Y,Z,0,'ONLY')
259	c end ml.
260	*
261	* Positioning volume MGPA into the mother MGPL
262	*
263	N= 1
264	X= 0.
265	Y= 0.
266	Z= 0.
267	CALL GSPOS('MGPA',N,'MGPL',X,Y,Z,0,'ONLY')
268	*
269	* Positioning volume TPGD into the mother MGFR
270	*
271	X=0.
272	Z=-MGFR(3)+TPGD(3)
273	Y=0.
274	CALL GSPOS('TPGD',N,'MGFR',X,Y,Z,0,'ONLY')
275	*
276	* Positioning volume TPGI into the mother MGFR under MGPL
277	*
278	N=1
279	X=0.
280	Z=-MGFR(3)+2*TPGD(3)+TPGI(3)
281	Y=0.
282	CALL GSPOS('TPGI',N,'MGFR',X,Y,Z,0,'ONLY')
283	*
284	* Positioning volume MGPI into the mother MGPL
285	*
286	N= 1
287	X= 0.
288	Y= 0.
289	CC ML 10/11/05: Positioning volume MGPI into the mother MGPA
290	Z= 0.
291	CALL GSPOS('MGPI',N,'MGPA',X,Y,Z,0,'ONLY')
292	C Z= -MGFR(3)+2*TPGD(3)+MGPI(3)
293	C CALL GSPOS('MGPI',N,'MGFR',X,Y,Z,0,'ONLY')
294	*
295	* Positioning volume MGPL into the mother MGFR
296	*
297	c ml: 10/11/05
298	N=1
299	c Z=-MGFR(3)+MGPL(3)
300	Z=-MGFR(3)+2*(TPGD(3)+TPGI(3))+MGPL(3)
301	CALL GSPOS('MGPL',N,'MGFR',X,Y,Z,0,'ONLY')
302	*
303	* Positioning volume TPGI into the mother MGFR above MGPL
304	*
305	N=2
306	X=0.
307	Z=-MGFR(3)+2*(TPGD(3)+TPGI(3)+MGPL(3))+TPGI(3)
308	Y=0.
309	CALL GSPOS('TPGI',N,'MGFR',X,Y,Z,0,'ONLY')
310	*
311	* Positioning volume TPGA into the mother MGFR
312	*
313	C ML: 10/11/05
314	N=1
315	X=0.
316	Y=MGFR(2)-2*(MGFR(2)-TRPB(2))-TPGA(2)
317	C Z=-MGFR(3)+2*MGPL(3)+TPGA(3)
318	C Z=MGFR(3)-2TPGU(3)-2TRPB(3)-TPGA(3)
319	Z=-MGFR(3)+2*(TPGD(3)+TPGI(3)+MGPL(3)+TPGI(3))+TPGA(3)
320	C Y=-0.75
321	CALL GSPOS('TPGA',N,'MGFR',X,Y,Z,0,'ONLY')
322	*
323	* Positioning volumes TRPB & MGPL into the mother SPEB
324	*
325	N= 1
326	X= 0.
327	C Y= SPEB(2) - TRPB(2)
328	Y= -MGFR(2) + TRPB(2)
329	C Z= SPEB(3) - TRPB(3)
330	c Z=-MGFR(3)+2MGPL(3)+2TPGA(3)+TRPB(3)
331	C Z=MGFR(3)-2*TPGU(3)-TRPB(3)
332	Z=-MGFR(3)+2*(TPGD(3)+TPGI(3)+MGPL(3)+TPGI(3)+TPGA(3))+TRPB(3)
333	C CALL GSPOS('TRPB',N,'SPEB',X,Y,Z,0,'ONLY')
334	CALL GSPOS('TRPB',N,'MGFR',X,Y,Z,0,'ONLY')
335	c CALL GSPOS('TRPB',N,'MGFR',X,Y,Z,9,'ONLY')
336	Z=SPEB(3)
337	DO I=1, 5
338	X= 0.
339	Y= 0.
340	C Z= Z - TRPB(3) - MGFR(3)
341	Z=Z-MGFR(3)
342	N= I
343	CALL GSPOS('MGFR',N,'SPEB',X,Y,Z,0,'ONLY')
344	C Y= SPEB(2) - TRPB(2)
345	C Z= Z - MGFR(3) - TRPB(3)
346	C N= (I+1)
347	C IF(I.EQ.5) THEN
348	CC CALL GSPOS('TRPB',N,'SPEB',X,Y,Z,10,'ONLY')
349	C CALL GSPOS('TRPB',N,'MGFR',X,Y,Z,10,'ONLY')
350	C ELSE
351	CC CALL GSPOS('TRPB',N,'SPEB',X,Y,Z,0,'ONLY')
352	C CALL GSPOS('TRPB',N,'MGFR',X,Y,Z,0,'ONLY')
353	C ENDIF
354	Z=Z-MGFR(3)
355	ENDDO
356	N=2
357	X=0.
358	Y=MGFR(2) - TRPB(2)
359	Z=Z-TRPB(3)
360	ZTRPB=Z
361	c CALL GSPOS('TRPB',N,'SPEB',X,Y,Z,4,'ONLY')
362	CALL GSPOS('TRPB',N,'SPEB',X,Y,Z,10,'ONLY')
363	*
364	* Positioning volume TBAL into the mother SPEB
365	*
366	DO I=1,2
367	C DTBAL is the distance along x of the volumes TBAL from the end of TRPB
368	DTBAL=3.6
369	N=I
370	IF(I.EQ.1) THEN
371	X=TRPB(1)-3.6-TBAL(1)
372	ELSE
373	X=-(TRPB(1)-3.6-TBAL(1))
374	ENDIF
375	Y=MGFR(2) - 2*TRPB(2)-TBAL(2)
376	Z=ZTRPB
377	CALL GSPOS('TBAL',N,'SPEB',X,Y,Z,0,'ONLY')
378	ENDDO
379	*
380	* Positioning volume TPGU into the mother MGFR
381	*
382	X=0.
383	C Z=MGFR(3)-TPGU(3)
384	Z=-MGFR(3)+2*(TPGD(3)+TPGI(3)+MGPL(3)+TPGI(3)+TPGA(3)+TRPB(3))+
385	+ TPGU(3)
386	Y=-MGFR(2)+TRPB(2)
387	CALL GSPOS('TPGU',N,'MGFR',X,Y,Z,0,'ONLY')
388	*
389	RETURN
390	END