/[PAMELA software]/gpamela/gpspe/gpucollection.F
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Contents of /gpamela/gpspe/gpucollection.F

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Revision 3.4 - (show annotations) (download)
Fri Apr 23 10:05:53 2010 UTC (14 years, 7 months ago) by pam-fi
Branch: MAIN
CVS Tags: HEAD
Changes since 3.3: +2 -5 lines
Error occurred while calculating annotation data.
 version compatible with kinematics and badva1 read from files

1 *-- Author : Elena Taddei-Sergio Bottai 09/08/2005
2
3 SUBROUTINE GPUCOLLECTION(np,nt)
4
5 ***************************************************************************
6 * *
7 * *
8 * *
9 * Here we calculate the signal appearing on each ADC channel *
10 * starting from the charge collected on every strip of the silicon *
11 * sensor. Noise is kept from data of beam test. Capacitive coupling *
12 * between strips and energy to ADC calibration are introduced too. *
13 * *
14 * *
15 * Called by: GPDSPE *
16 * *
17 ***************************************************************************
18
19 #include "gpstripspe.inc"
20
21 c
22 c new strip capacitance simulation 19/02/09 S. Bottai
23 c
24 c
25 dimension stripqxtanti(nstripx)
26 dimension stripqytanti(nstripy)
27
28
29
30
31
32 ********zeroing**************
33
34 do i=1,nstripx
35 stripqxtanti(i)=0.
36 enddo
37 do i=1,nstripy
38 stripqytanti(i)=0.
39 enddo
40
41 ***************************
42 if(NT.eq.1.or.NT.eq.4) LADD=1
43 if(NT.eq.2.or.NT.eq.5) LADD=2
44 if(NT.eq.3.or.NT.eq.6) LADD=3
45
46 *
47 * Odd strip, X side --> charge shared between adjacent strips
48 * EFFCOUPL --> coupling efficiency (capacitance to backplane =0?)
49 * SHIFTMASK --> asymmetry in charge division on X view
50 * different in each sensor (mask)
51
52
53 do j=(1+8),(nstripx-7),2
54 proxtanti(np,nt,j-1)=
55 + proxtanti(np,nt,j-1)+
56 + 0.5*effcoupl*proxtanti(np,nt,j)*(1.-shiftmask)
57
58 proxtanti(np,nt,j+1)=
59 + proxtanti(np,nt,j+1)+
60 + 0.5*effcoupl*proxtanti(np,nt,j)*(1.+shiftmask)
61 proxtanti(np,nt,j)=0.
62 enddo
63
64
65 *
66 * Capacitive coupling: a fraction of the charge arriving at one strip
67 * appears at the output of the neighbouring amplifiers
68 * This fraction is about Cis/Cdec, where Cis is the interstrip
69 * capacitance and Cdec is the decoupling capacitance (see Turchetta)
70 * An algorithm has been chosen that is precise for low values of the
71 * capacitive coupling, i.e. if the INDUCED charge on a given strip
72 * is little compared with the COLLECTED one.
73 *
74
75
76 ******************** X side *************************
77
78 c=cistrx/cdec
79 c2=cistrx2/cdec
80
81
82 do j=8,nstripx-6,2 ! only even strips on X side
83 CV jm2=1
84 CV IF(j-2.lt.8) jm2=0
85 CV jp2=1
86 CV IF(j+2.gt.(nstripx-6)) jp2=0
87 CV jm4=1
88 CV IF(j-4.lt.8) jm4=0
89 CV jp4=1
90 CV IF(j+4.gt.(nstripx-6)) jp4=0
91
92
93 stripqxtanti(j)=proxtanti(np,nt,j)
94 SUMF=0.
95 ccc DO KK=1,15
96 DO KK=1,4
97 KF=KK*2
98 IF(KK.EQ.1) FN=F1
99 IF(KK.EQ.2) FN=F2
100 IF(KK.EQ.3) FN=F3
101 IF(KK.EQ.4) FN=F4
102 IF(KK.GE.5) FN=F1/KK
103 IF((J-KF).GE.8) THEN
104 stripqxtanti(j)=stripqxtanti(j)+FN*proxtanti(np,nt,j-KF)
105 SUMF=SUMF+FN
106 ENDIF
107 IF((J+KF).LE.(nstripx-6)) THEN
108 stripqxtanti(j)=stripqxtanti(j)+FN*proxtanti(np,nt,j+KF)
109 SUMF=SUMF+FN
110 ENDIF
111 ENDDO
112
113 stripqxtanti(j)=stripqxtanti(j)-SUMF*proxtanti(np,nt,j)
114
115 cv stripqxtanti(j)=proxtanti(np,nt,j)*(1.-2.*(c+c2))+
116 cv + c*(1.-2.*c)*(jm2*proxtanti(np,nt,j-2)
117 cv + +jp2*proxtanti(np,nt,j+2))+
118 cv + (c**2)*(jm4*proxtanti(np,nt,j-4)*(1.+c2/(c**2))+
119 cv + 2.*proxtanti(np,nt,j)+jp4*proxtanti(np,nt,j+4)*(1.+c2/(c**2)))
120
121
122 if(stripqxtanti(j).gt.1.e-8) then
123
124 IVA1=INT((J/2-1)/128)+1
125 IF(badva1(NP*2,LADD,IVA1).EQ.1) THEN
126 NSTRPX=NSTRPX+1
127 floatadcx=stripqxtanti(j)*xcalib
128 IF(NSTRPX.GT.MAXSTR) THEN
129 WRITE(6,*) 'ERROR - NSTRPX > MAXSTR'
130 NSTRPX=MAXSTR
131 ENDIF
132 NPSTRIPX(NSTRPX)=NP
133 NTSTRIPX(NSTRPX)=NT
134 ISTRIPX(NSTRPX)=(J/2)+(LADD-1)*1024
135 QSTRIPX(NSTRPX)=floatadcx
136 XSTRIPX(NSTRPX)=GLOBSTRIPX(NP,NT,J)
137 ENDIF
138
139 endif
140 enddo
141
142
143 ******************** Y side *************************
144
145 c=cistry/cdec
146
147
148 do j=1,nstripy
149
150 jmen1=j-1
151 jm1=1
152 if(jmen1.lt.1) then
153 jm1=0
154 jmen1=1
155 endif
156
157 jmen2=j-2
158 jm2=1
159 if(jmen2.lt.1) then
160 jm2=0
161 jmen2=1
162 endif
163
164 jpiu1=j+1
165 jp1=1
166 if(jpiu1.gt.nstripy) then
167 jp1=0
168 jpiu1=nstripy
169 endif
170
171 jpiu2=j+2
172 jp2=1
173 if(jpiu2.gt.nstripy) then
174 jp2=0
175 jpiu2=nstripy
176 endif
177
178 stripqytanti(j)=proytanti(np,nt,j)*(1.-2.*c)+
179 + c*(1.-2.*c)*(jm1*proytanti(np,nt,jmen1)+jp1*
180 + proytanti(np,nt,jpiu1))+
181 + (c**2)*(jm2*proytanti(np,nt,jmen2)+2.*proytanti(np,nt,j)+
182 + jp2*proytanti(np,nt,jpiu2))
183
184 if(stripqytanti(j).gt.1.e-8) then
185
186
187 IVA1=INT((J-1)/128)+1
188 IF(badva1(NP*2-1,LADD,IVA1).EQ.1) THEN
189
190 NSTRPY=NSTRPY+1
191 IF(NSTRPY.GT.MAXSTR) THEN
192 WRITE(6,*) 'ERROR - NSTRPY > MAXSTR'
193 NSTRPY=MAXSTR
194 ENDIF
195 floatadcy=stripqytanti(j)*ycalib
196 NPSTRIPY(NSTRPY)=NP
197 NTSTRIPY(NSTRPY)=NT
198 ISTRIPY(NSTRPY)=J+(LADD-1)*1024
199 QSTRIPY(NSTRPY)=FLOATADCY
200 YSTRIPY(NSTRPY)=GLOBSTRIPY(NP,NT,J)
201
202 ENDIF
203
204 endif
205
206 enddo
207
208
209 END
210

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