tracker/commonyoda/commontracker.f

************************************************************************
*     
*     Common commontracker.f
*     
*     contains tracker general variables definitions
*     
*     to be included in:
*     - ../readraw/readraw.F
*     - ../reduction/reduction.f
*     - ../reduction/fillpedsig.f
*     - ../reduction/filladc.f
*     - ../reduction/cncomp.f
*     - ../reduction/cnoise.f
*     - ../reduction/cutcn.f
*     - ../analysis/preanalysis.f
*     - ../analysis/analysis.f
*     - ../align/align.f
*     - ../magnet/read_B.f
*     - !???
*     
*     parameters:
*     - !???
*     
*************************************************************************


c------------------------------------------------------------------------
c     
c     HBOOK initialization variable
c     
c------------------------------------------------------------------------

      parameter (NWPAWC=6500000)
      common/PAWC/HMEM(NWPAWC)


c------------------------------------------------------------------------
c     
c     ntuples id numbers and parameters
c     
c------------------------------------------------------------------------

      parameter (ntp_runinfo=19) !RUNINFO
      parameter (ntp_level0=20) !LEVEL0
      parameter (ntp_level1=21) !LEVEL1
      parameter (ntp_level2=22) !LEVEL2
      parameter (ntp_level3=23) !LEVEL3


c      parameter (nclstrmax=1000) !maximum number of clusters per event
      parameter (nclstrmax=500)
      parameter (nclstrp=17)    !maximum number of strips to be checked for 
                                ! inclusion in the cluster
      parameter (maxlength=nclstrmax*nclstrp) !maximum number of strip belonging
                                ! to clusters for the whole event


c------------------------------------------------------------------------
c     
c     spectrometer parameters
c     
c------------------------------------------------------------------------

      parameter (nviews=12)     !number of views
      parameter (nplanes=nviews/2) !number of planes
      parameter (nladders_view=3) !number of ladders per view
      parameter (nva1_ladder=8) !number of VA1s per ladder (per side)
      parameter (nstrips_va1=128) !number of strips per VA1


      parameter (nstrips_ladder=nstrips_va1*nva1_ladder) !number of strips
                                ! per ladder
      parameter (nva1_view=nva1_ladder*nladders_view) !number of VA1s per 
                                ! view
      parameter (nstrips_view=nstrips_va1*nva1_view) !number of strips per 
                                ! view
      parameter (nva1=nva1_view*nviews) !number of VA1s
      parameter (nstrips=nstrips_va1*nva1) !number of strips

      parameter (pitchX=51.)
      parameter (pitchY=66.5)
      
      
c------------------------------------------------------------------------
c     
c     pedestal, sigma and badstrip variables
c     
c------------------------------------------------------------------------

      real pedestal(nviews,nva1_view,nstrips_va1) !pedestal value
      real pedestal_t(nviews,nva1_view,nstrips_va1) !pedestal truncated value

      real sigma(nviews,nva1_view,nstrips_va1) !sigma value
      real sigma_t(nviews,nva1_view,nstrips_va1) !sigma truncated value

      integer bad(nviews,nva1_view,nstrips_va1) !bad strip flag matrix
                                ! (bad=1 --> good strip, bad=0 --> bad strip)

      common/pedsigbad/pedestal,pedestal_t,sigma,sigma_t,bad


c     todo!???

      real adc(nviews,nva1_view,nstrips_va1)
c     real adc1(nviews,nva1_view,nstrips_va1)!per check della compressione

      common/adc_value/adc
!     ,adc1!per check della compressione


c------------------------------------------------------------------------
c     
c     common noise computation
c     
c------------------------------------------------------------------------
      parameter (scut=3.)
c      parameter (nch=50)
c      parameter (interval=10)

      real cn(nviews,nva1_view) !common noise value

      integer clstr(nviews,nva1_view,nstrips_va1) !flag matrix to mark 
                                ! strips with signal and exclude them from
                                ! common noise computation

      integer strange(nviews,nva1_view,nstrips_va1) !flag matrix to mark 
                                ! strips with unusually high or low signal and
                                ! exclude them from common noise computation

      common/cn/cn,clstr,strange


c------------------------------------------------------------------------
c     
c     cluster seed cuts
c     
c------------------------------------------------------------------------
      parameter (clcutx=7.)     !cluster seed cut (to esclude particles in CN
                                ! computation and to find clusters in data
                                ! reduction)
      parameter (clcuty=7.)


c------------------------------------------------------------------------
c     
c     common noise inclusion cut
c     
c------------------------------------------------------------------------
      parameter (cnincut=2.)    !cut to include strips in cluster definition
                                ! during common noise computation


c------------------------------------------------------------------------
c     
c     cluster finding inclusion cut
c     
c------------------------------------------------------------------------
      parameter (incutx=4.)     !cut to include strips in cluster definition
                                ! during cluster finding procedure
      parameter (incuty=4.)


c------------------------------------------------------------------------
c     
c     eta-i computation
c     
c------------------------------------------------------------------------
c      parameter (nn=100)        !eta function histos id number

c      real eta2(nclstrmax),eta3(nclstrmax),eta4(nclstrmax) !eta-i arrays

c      common/eta/eta2,eta3,eta4


      parameter (id_hi_eta2=200000)
      parameter (id_hi_eta3=300000)
      parameter (id_hi_eta4=400000)


c------------------------------------------------------------------------
c     
c     track selection for alignment
c     
c------------------------------------------------------------------------
      parameter (id_hi_residuals=10000) !residuals histos id number

      parameter (nnn=1000)       !chi square histos id number

      real reslim(28)         !tagli sulla buona traccia

      real resX1min,resX1max      !tagli sugli scarti per decidere tracce buone
      real resX2min,resX2max
      real resX3min,resX3max
      real resX4min,resX4max
      real resX5min,resX5max
      real resX6min,resX6max
      real resY1min,resY1max
      real resY2min,resY2max
      real resY3min,resY3max
      real resY4min,resY4max
      real resY5min,resY5max
      real resY6min,resY6max
      real chiXmin,chiXmax
      real chiYmin,chiYmax

      equivalence (reslim(1),resX1min),(reslim(2),resX1max),
     +     (reslim(3),resX2min),(reslim(4),resX2max),
     +     (reslim(5),resX3min),(reslim(6),resX3max),
     +     (reslim(7),resX4min),(reslim(8),resX4max),
     +     (reslim(9),resX5min),(reslim(10),resX5max),
     +     (reslim(9),resX6min),(reslim(10),resX6max),
     +     (reslim(11),resY1min),(reslim(12),resY1max),
     +     (reslim(13),resY2min),(reslim(14),resY2max),
     +     (reslim(15),resY3min),(reslim(16),resY3max),
     +     (reslim(17),resY4min),(reslim(18),resY4max),
     +     (reslim(19),resY5min),(reslim(20),resY5max),
     +     (reslim(19),resY6min),(reslim(20),resY6max),
     +     (reslim(21),chiXmin),(reslim(22),chiXmax),
     +     (reslim(23),chiYmin),(reslim(24),chiYmax)


c------------------------------------------------------------------------
c     
c     magnetic field
c     
c------------------------------------------------------------------------
      parameter (nx=29, ny=23, nz=101) !number of measures along X, Y and Z axes
      
      real*8 px(nx,3),py(ny,3),pz(nz,3) !coordinates of measure points:
                                ! e.g. py(ny,1) = Y coordinates of Bx (=1)
                                ! component of magnetic field

      real*8 b(nx,ny,nz,3),db(nx,ny,nz,3) !magnetic field values and error:
                                ! e.g. b(nx,ny,nz,2) = By (=2) component of
                                ! magnetic field measured in (nx, ny, nz)

      common/interpolation/px,py,pz,b,db


c     MECH_POS block:
      real x_mech_sensor(6,3,2) !mechanical project coordinates of silicon
      real y_mech_sensor(6,3,2) ! sensors centres (plane, ladderX, ladderY)
      real z_mech_sensor(6,3,2) ! in millimeters (ladderY=1 if near the hybrid,
      common/mechanical_positions/
     $     x_mech_sensor,y_mech_sensor,z_mech_sensor
                                ! =2 if far from it)


c     ALIGNP block:
c     silicon sensors alignment parameters:
      real dx_sensor(6,3,2)     !X translations (plane, ladderX, ladderY)
      real dy_sensor(6,3,2)     !Y translations
      real dz_sensor(6,3,2)     !Z translations 
      real omega_sensor(6,3,2)  !Z axis rotation angle
      real beta_sensor(6,3,2)   !X axis rotation angle
      real gamma_sensor(6,3,2)  !Y axis rotation angle

      common/allign_parameters/dx_sensor,dy_sensor,dz_sensor
     $     ,omega_sensor,beta_sensor,gamma_sensor
1	kusanagi	1.1	************************************************************************
2			*
3			* Common commontracker.f
4			*
5			* contains tracker general variables definitions
6			*
7			* to be included in:
8			* - ../readraw/readraw.F
9			* - ../reduction/reduction.f
10			* - ../reduction/fillpedsig.f
11			* - ../reduction/filladc.f
12			* - ../reduction/cncomp.f
13			* - ../reduction/cnoise.f
14			* - ../reduction/cutcn.f
15			* - ../analysis/preanalysis.f
16			* - ../analysis/analysis.f
17			* - ../align/align.f
18			* - ../magnet/read_B.f
19			* - !???
20			*
21			* parameters:
22			* - !???
23			*
24			*************************************************************************
25
26
27			c------------------------------------------------------------------------
28			c
29			c HBOOK initialization variable
30			c
31			c------------------------------------------------------------------------
32
33			parameter (NWPAWC=6500000)
34			common/PAWC/HMEM(NWPAWC)
35
36
37			c------------------------------------------------------------------------
38			c
39			c ntuples id numbers and parameters
40			c
41			c------------------------------------------------------------------------
42
43			parameter (ntp_runinfo=19) !RUNINFO
44			parameter (ntp_level0=20) !LEVEL0
45			parameter (ntp_level1=21) !LEVEL1
46			parameter (ntp_level2=22) !LEVEL2
47			parameter (ntp_level3=23) !LEVEL3
48
49
50			c parameter (nclstrmax=1000) !maximum number of clusters per event
51			parameter (nclstrmax=500)
52			parameter (nclstrp=17) !maximum number of strips to be checked for
53			! inclusion in the cluster
54			parameter (maxlength=nclstrmax*nclstrp) !maximum number of strip belonging
55			! to clusters for the whole event
56
57
58			c------------------------------------------------------------------------
59			c
60			c spectrometer parameters
61			c
62			c------------------------------------------------------------------------
63
64			parameter (nviews=12) !number of views
65			parameter (nplanes=nviews/2) !number of planes
66			parameter (nladders_view=3) !number of ladders per view
67			parameter (nva1_ladder=8) !number of VA1s per ladder (per side)
68			parameter (nstrips_va1=128) !number of strips per VA1
69
70
71			parameter (nstrips_ladder=nstrips_va1*nva1_ladder) !number of strips
72			! per ladder
73			parameter (nva1_view=nva1_ladder*nladders_view) !number of VA1s per
74			! view
75			parameter (nstrips_view=nstrips_va1*nva1_view) !number of strips per
76			! view
77			parameter (nva1=nva1_view*nviews) !number of VA1s
78			parameter (nstrips=nstrips_va1*nva1) !number of strips
79
80			parameter (pitchX=51.)
81			parameter (pitchY=66.5)
82
83
84			c------------------------------------------------------------------------
85			c
86			c pedestal, sigma and badstrip variables
87			c
88			c------------------------------------------------------------------------
89
90			real pedestal(nviews,nva1_view,nstrips_va1) !pedestal value
91			real pedestal_t(nviews,nva1_view,nstrips_va1) !pedestal truncated value
92
93			real sigma(nviews,nva1_view,nstrips_va1) !sigma value
94			real sigma_t(nviews,nva1_view,nstrips_va1) !sigma truncated value
95
96			integer bad(nviews,nva1_view,nstrips_va1) !bad strip flag matrix
97			! (bad=1 --> good strip, bad=0 --> bad strip)
98
99			common/pedsigbad/pedestal,pedestal_t,sigma,sigma_t,bad
100
101
102
103
104
105
106
107			c todo!???
108
109			real adc(nviews,nva1_view,nstrips_va1)
110			c real adc1(nviews,nva1_view,nstrips_va1)!per check della compressione
111
112			common/adc_value/adc
113			! ,adc1!per check della compressione
114
115
116
117
118
119
120
121
122			c------------------------------------------------------------------------
123			c
124			c common noise computation
125			c
126			c------------------------------------------------------------------------
127			parameter (scut=3.)
128			c parameter (nch=50)
129			c parameter (interval=10)
130
131			real cn(nviews,nva1_view) !common noise value
132
133			integer clstr(nviews,nva1_view,nstrips_va1) !flag matrix to mark
134			! strips with signal and exclude them from
135			! common noise computation
136
137			integer strange(nviews,nva1_view,nstrips_va1) !flag matrix to mark
138			! strips with unusually high or low signal and
139			! exclude them from common noise computation
140
141			common/cn/cn,clstr,strange
142
143
144			c------------------------------------------------------------------------
145			c
146			c cluster seed cuts
147			c
148			c------------------------------------------------------------------------
149			parameter (clcutx=7.) !cluster seed cut (to esclude particles in CN
150			! computation and to find clusters in data
151			! reduction)
152			parameter (clcuty=7.)
153
154
155			c------------------------------------------------------------------------
156			c
157			c common noise inclusion cut
158			c
159			c------------------------------------------------------------------------
160			parameter (cnincut=2.) !cut to include strips in cluster definition
161			! during common noise computation
162
163
164			c------------------------------------------------------------------------
165			c
166			c cluster finding inclusion cut
167			c
168			c------------------------------------------------------------------------
169			parameter (incutx=4.) !cut to include strips in cluster definition
170			! during cluster finding procedure
171			parameter (incuty=4.)
172
173
174			c------------------------------------------------------------------------
175			c
176			c eta-i computation
177			c
178			c------------------------------------------------------------------------
179			c parameter (nn=100) !eta function histos id number
180
181			c real eta2(nclstrmax),eta3(nclstrmax),eta4(nclstrmax) !eta-i arrays
182
183			c common/eta/eta2,eta3,eta4
184
185
186			parameter (id_hi_eta2=200000)
187			parameter (id_hi_eta3=300000)
188			parameter (id_hi_eta4=400000)
189
190
191
192			c------------------------------------------------------------------------
193			c
194			c track selection for alignment
195			c
196			c------------------------------------------------------------------------
197			parameter (id_hi_residuals=10000) !residuals histos id number
198
199			parameter (nnn=1000) !chi square histos id number
200
201			real reslim(28) !tagli sulla buona traccia
202
203			real resX1min,resX1max !tagli sugli scarti per decidere tracce buone
204			real resX2min,resX2max
205			real resX3min,resX3max
206			real resX4min,resX4max
207			real resX5min,resX5max
208			real resX6min,resX6max
209			real resY1min,resY1max
210			real resY2min,resY2max
211			real resY3min,resY3max
212			real resY4min,resY4max
213			real resY5min,resY5max
214			real resY6min,resY6max
215			real chiXmin,chiXmax
216			real chiYmin,chiYmax
217
218			equivalence (reslim(1),resX1min),(reslim(2),resX1max),
219			+ (reslim(3),resX2min),(reslim(4),resX2max),
220			+ (reslim(5),resX3min),(reslim(6),resX3max),
221			+ (reslim(7),resX4min),(reslim(8),resX4max),
222			+ (reslim(9),resX5min),(reslim(10),resX5max),
223			+ (reslim(9),resX6min),(reslim(10),resX6max),
224			+ (reslim(11),resY1min),(reslim(12),resY1max),
225			+ (reslim(13),resY2min),(reslim(14),resY2max),
226			+ (reslim(15),resY3min),(reslim(16),resY3max),
227			+ (reslim(17),resY4min),(reslim(18),resY4max),
228			+ (reslim(19),resY5min),(reslim(20),resY5max),
229			+ (reslim(19),resY6min),(reslim(20),resY6max),
230			+ (reslim(21),chiXmin),(reslim(22),chiXmax),
231			+ (reslim(23),chiYmin),(reslim(24),chiYmax)
232
233
234			c------------------------------------------------------------------------
235			c
236			c magnetic field
237			c
238			c------------------------------------------------------------------------
239			parameter (nx=29, ny=23, nz=101) !number of measures along X, Y and Z axes
240
241			real*8 px(nx,3),py(ny,3),pz(nz,3) !coordinates of measure points:
242			! e.g. py(ny,1) = Y coordinates of Bx (=1)
243			! component of magnetic field
244
245			real*8 b(nx,ny,nz,3),db(nx,ny,nz,3) !magnetic field values and error:
246			! e.g. b(nx,ny,nz,2) = By (=2) component of
247			! magnetic field measured in (nx, ny, nz)
248
249			common/interpolation/px,py,pz,b,db
250
251
252			c MECH_POS block:
253			real x_mech_sensor(6,3,2) !mechanical project coordinates of silicon
254			real y_mech_sensor(6,3,2) ! sensors centres (plane, ladderX, ladderY)
255			real z_mech_sensor(6,3,2) ! in millimeters (ladderY=1 if near the hybrid,
256			common/mechanical_positions/
257			$ x_mech_sensor,y_mech_sensor,z_mech_sensor
258			! =2 if far from it)
259
260
261			c ALIGNP block:
262			c silicon sensors alignment parameters:
263			real dx_sensor(6,3,2) !X translations (plane, ladderX, ladderY)
264			real dy_sensor(6,3,2) !Y translations
265			real dz_sensor(6,3,2) !Z translations
266			real omega_sensor(6,3,2) !Z axis rotation angle
267			real beta_sensor(6,3,2) !X axis rotation angle
268			real gamma_sensor(6,3,2) !Y axis rotation angle
269
270			common/allign_parameters/dx_sensor,dy_sensor,dz_sensor
271			$ ,omega_sensor,beta_sensor,gamma_sensor