/[PAMELA software]/gpamela/history/v_100.txt

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-revision 3.23 by cafagna,
Thu Nov 30 13:22:35 2006 UTC
+revision 3.25 by cafagna,
Sun Dec 17 14:53:18 2006 UTC
 Line 1
+ # Revision 3.21  2006/12/05 18:45:29  bruno
+ # Update of the CARD geometry
+ # Simulated also legs, table and magnetic screen
  #
- # $Id: v_100.txt,v 3.22 2006/11/28 11:43:41 pam-ba Exp $
+ # $Id: v_100.txt,v 3.20 2006/11/16 18:45:29 pam-ba Exp $
  #
  # $Log: v_100.txt,v $
- # Revision 3.22  2006/11/28 11:43:41  pam-ba
- # History modified
- #
- # Revision 3.21  2006/11/28 10:26:15  pam-ba
- # S3 positioning completed
- #
  # Revision 3.20  2006/11/16 18:45:29  pam-ba
  # Simulated an aluminum container for S4
  #
-Line 80
+Line 77
  #CMZ :  1.00/03 30/04/96  12.23.59  by  Francesco Cafagna
  #CMZ :  1.00/02 05/04/96  15.31.25  by  Francesco Cafagna
  #CMZ :  1.00/01 28/11/95  18.51.23  by  Francesco Cafagna
  #-- Author :    Francesco Cafagna   28/11/95
-November 2006, Bari F. Cafagna
- BUG FIXED
-    For some reason there was a conflict using FLUKA and the GARFILD
+ December 2006, Bari
-    interface for the TRD. The file TRD_ATT.TXT was treated as flukaerr
-    file by the compiler. It is not clear why. The code was correct,
-    the logical units and names were not inconflict, but the compiler
-    assigned to them the same internal number. It may be a problem
-    related to the optimization phase. I did close the file just after
-    the read-out in GPDAT.F and commented out the closing in UGLAST.F
+ CARD GEOMETRY:
+ Positions, dimensions and quotes have been updated. Indeed, the aluminium table
+ under S1, legs included, and the magnetic screen between the CARD and S2 have
+ been added.
+ #-------------------------------------------------------------------------
  November 2006, Bari
  S4 GEOMETRY UPDATED:
  The x and y dimensions have been corrected because they were wrong.
  A container of aluminum has been added having walls of thickness equal
  to 0.1 cm.
  TOF POSITIONS DEFINITELY UPDATED:
  S2 and S1 have been positioned again, after the simulation of the top plate.
- Before now, the positions were put by hand based on the positions given by
+ Before now, the positions were put ad hoc based on the positions given by
  Sergio Ricciarini in the document 'Main geometrical parameters of the PAMELA
  sub-detectors' released by O. Adriani, L. Bonechi, E. Mocchiutti and
  S. Ricciarini on the 20th of December 2005.. These positions were
- lightly approximated because the thicknesses of the mylar and of the glue were
+ lightly approximated.
- not considered in that document. Also the height of S3 has been modified as
- suggested from the Naples PAMELA collaborators.
  ND GEOMETRY COMPLETED.
  The He3 and the polyethylene (CH2) have been added to fill
-Line 120 
 the volumes NDTI and NDPB in the neutron
+Line 110 
 the volumes NDTI and NDPB in the neutron
  details of these materials.
  TOP PLATE GEOMETRY ADDED.
- The top plate geometry has been simulated as a rectangular window filled
+ The top plate geometry has been simulated as a N2 box that has the same
- with a mixture of titanium (90%), aluminum (6%) and vanadium (4%). It has been
+ dimensions of CATA. Inside it, at the right positions, there are S2 and CATA.
- put in a N2 box having the same planar dimensions of CATA. In this box there
+ The real top plate is a rectangular window having a thickness of 0.5 cm
- are also S2 and CATA at the right positions. Then the top plate geometry has
+ (volume TPTL emptied by the volume TPCV). This volume is filled with a mixture
- been completed with other eight small volumes of titanium positioned at the
+ of titanium (90%), aluminum (6%) and vanadium (4%). Other parts of titanium
- corners of the N2 box. Four of them are at the same height of CATA, the
+ are the four volumes TPTU, which are positioned at the corners of TPTL at the
- other four are at the same height of S2. The simulated geometry of the top
+ same height of CATA, and the four volumes TPTM, which are positioned at the
- plate is based on a simplified version of the CAD drawings.
+ corners of TPTL, at the same height of S2.
+ The geometry  of the top plate is based on a simplified version of the CAD
+ drawings.
  October 2006, Bari
-Line 142 
 SPHE and ND data card bugs fixed: the de
+Line 134 
 SPHE and ND data card bugs fixed: the de
  missing in the subroutine gpgeo.F, has been added; the meaning of the SPHE
  data card has been changed. Before the correction the data card:
  NDET 'SPHE' was used to delete the spherical top shell to substitute it with
  a flat one.Now NDET 'SPHE' eliminates the whole container of PAMELA.
  June 2006, Bari
  The center of the scintillator planes S22Y (variable ZPAMS22Y in gpdgeo.inc)
  and S12X (variable ZPAMS12X in gpdgeo.inc) has been positioned at the
-Line 154 
 parameters of the PAMELA sub-detectors"
+Line 146 
 parameters of the PAMELA sub-detectors"
  E. Mocchiutti, S. Ricciarini, 20 December 2005). Follows that the positions
  of S21Y and S12X are higher than those in the cited document due to the fact
  that in GPAMELA the thickness of the mylar has been considered while in the
  document it has been neglected.
  May 2006, Bari & Tor Vergata
-Line 180 
 CAL HIT STRUCTURE BUGS FIXED
+Line 172 
 CAL HIT STRUCTURE BUGS FIXED
     ntple booking have been updated. The GPDCAL routine has been fixed
     so to handle the case in wich hits stored are more than the maximum
     number of hit.
     In this case in the ntple up to the maximum number of hits will be stored.
  April 2006, Bari
-Line 223 
 NEW GPKEY ADDED: GPCALOR
+Line 215 
 NEW GPKEY ADDED: GPCALOR
     is set to true in GPDAT if the data card: HPAK, is set to
     'GCAL'. The gpkey.inc has been update accordingly.
  NEUTRON DETECTOR ADDED. NEW DIR: GPND
     The neutron detector has been added. At the moment it is just the
-Line 240 
 GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR,
+Line 232 
 GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR,
     http://www.staff.uni-mainz.de/zeitnitz/Gcalor/gcalor.html
     This package should be distributed with the GEANT library but is
     not up to date. I did download the latest release and stored into
     gpcalor directory of the gpamela tree.
     Then I did clean up the code substituting the explicit inclusion of
     the commons with a #include cpp directive. In parallel I did
     extract the commons to include files having the same common name. I
-Line 251 
 GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR,
+Line 243 
 GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR,
     NOTE: There are still problem due to different common sizes. In
     particular the common MICFIL is maller in the geant library
     libgeant.a . There the subroutines: gmorin, gmxsec, gmplxs, are
     present and linked using a wrong version of the common. This still needs to be debuged.
     NOTE2: The auxiliary files with the cross sections: chetc.dat.gz
     and xsneut.dat.gz, have been added to the aux directory and moved
     to the working directory, i.e. GPAMELA_BIN. The GCALOR routine will
-Line 259 
 GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR,
+Line 251 
 GCALOR PACKAGE ADDED. NEW DIRs: GPCALOR,
     searched there at first, then in the working directory. A fool
     proof policy has to be implemented to avoid problem with
     synchronization fo these files.
- The GCALOR package
+ The GCALOR package
  June 2005, Bari
-Line 272 
 TOF SCINTILLATOR PADDLES UPDATED
+Line 264 
 TOF SCINTILLATOR PADDLES UPDATED
  May 2005, Bari
  Some updates on the latest modification done in the past year.
  NEW DATA CARD ADDED: HFSF
     To define a policy for the random number initial seeds
     definition. Using this card is possible to override GEANT seeds
     defined via NRDM card. The policy is selected according to the
     values:
     - 1: The seeds are initialized to the initial values found in a user
          defined file or the default file: INPUTSEED.DAT
     - 2: The seeds are initialized to the final values found in a user defined
          file or the default file: INPUTSEED.DAT
     The case 1 must be used in case the user needs to reproduce the
-Line 293 
 NEW DATA CARD ADDED: HFSF
+Line 285 
 NEW DATA CARD ADDED: HFSF
     binary file and pass the filename to the program using the *FLSF
     data card. In case the user file is not specified the default
     INPUTSEED.DAT will be used.
     The case 2 must be used in case the user needs to chain several
     GPAMELA run and likes to be sure he is starting the random
     generator using the right sequence. In this case the user must
-Line 311 
 NEW DATA CARD ADDED: *FSFI
+Line 303 
 NEW DATA CARD ADDED: *FSFI
     filled with his own seeds. For this purpose an utility program:
     writeseeds.f, has been added in the aux directory.  In case the
     *FSFI card is not specified the default values: 24 and INPUTSEEDS.DAT, will
     be used as LUN and file name respectively.
  NEW DATA CARD ADDED: *LSFI
     Using this card the user can specify the logical unit and name of
-Line 320 
 NEW DATA CARD ADDED: *LSFI
+Line 312 
 NEW DATA CARD ADDED: *LSFI
     run. This file is a FORTRAN binary one. This file can be used as
     input one specifying it in the *FSFI data card of the next GPAMELA
     run.  In case the *LSFI card is not specified the default values: 26
     and HBOOKFILENAME.DAT (as sepified in *HFI), will be used as LUN
     and file name respectively.
  NEW UTILITY PROGRAMS ADDED: writeseeds.f, readseeds.f
     These new programs have been added in the aux directory. Using these a
-Line 355 
 TRD GEOMETRY AND CALIBRATION REVIEWD
+Line 347 
 TRD GEOMETRY AND CALIBRATION REVIEWD
     has been revied and new sets of calibration constants calculated
     comparing the beam test data with the GPAMELA results. The new
     constants are about 3% larger than the previous ones.
  TRACKER GEOMETRY REVIEWED. NEW VOLUME DEFINED: THBP, TPAS, TPAI
     Thanks to Lorenzo Bonechi for the drawings and explanations. Now the
     hybrd cards have been put into the simulation and the geometry updated
     considering the dead zones in the silicon detectors. The hybrid zone
     has been simulated as well. At the moment the hybrid is simulated as
     a G10 plates. The full height of the tracker magnet has been
     reviewed as well.
     The tracker ladder is now simulated inside a nitrogen box: TPAS,
     placed inside an aluminum frame: TRPB. Each silicon ladder has been
-Line 371 
 TRACKER GEOMETRY REVIEWED. NEW VOLUME DE
+Line 363 
 TRACKER GEOMETRY REVIEWED. NEW VOLUME DE
     smaller silicon detector: TPAI, has been placed inside the larger
     silicon block TRSL. In this way the subdivided silicon ladder can
     be upgraded with an indipendend roto-translation for each sensor.
     The TRPB aluminum frame has been enlarged to fit the external
     magnet canister frame.
     The last plane has been flipped with a 180 degree rotation around
     the X axis.
  TRACKER HIT STRUCTURE REVIEWED
     Taking into account the new version of the tracker geometry, the hit
     structure for this detector has been revied.
  CALORIMETER GEOMETRY REVIEWED
     Marco Albi reviewed the calorimeter dimentions and positioning.
 March 2004, Bari
-Line 399 
 NON-REPRODUCIBILITY PROBLEM OF A GPAMELA
+Line 391 
 NON-REPRODUCIBILITY PROBLEM OF A GPAMELA
     the GARFIELD code for details). Follows that different runs produce
     different results without changing the initial seeds. To have identical
     results in different runs, the GARFIELD program has to start typing the
     noRNDM_initialisation switch. To avoid of specifying this switch
     by the user,
     the GARFIELD package has been upgraded with a patch. In this way the problem
     is partially solved because, now, the initial seeds of the random generators
-Line 407 
 NON-REPRODUCIBILITY PROBLEM OF A GPAMELA
+Line 399 
 NON-REPRODUCIBILITY PROBLEM OF A GPAMELA
     activated by the user for changing the initial seeds in the GPAMELA program.
     Work is in progress for a more general correction of this problem.
     Please, use the updated GARFIELD code released with the CVS version v4r1
     to fix this problem.
  RNDM ROUTINE REPLACED BY THE GRNDM ROUTINE IN GPXTR AND NPOISS.
-Line 420 
 BUG FOUND AND FIXED: the set and detecto
+Line 412 
 BUG FOUND AND FIXED: the set and detecto
     the GPSED common when the set and the detector ZEBRA banks are filled
     during a run. In general the values of the set and detector addresses
     depend on the number of active detectors in a given run. ISCAL=12 and
     IDCASI=1 are only right when all the detectors of GPAMELA are active.
 December 2003, Bari
-Line 464 
 BUG FOUND AND FIXED: the set and detecto
+Line 456 
 BUG FOUND AND FIXED: the set and detecto
     -ICAPLANE(i) contains the number of hit plane;
     -ICASTRIP(i) contains the number of hit strip;
     -ICAMOD(i) can assume different values based on the number of times and
-               positions in which a `long strip' has been hit.
+           positions in which a `long strip' has been hit.
     -ENESTRIP(i) contains the deposited energy in the hit strip;
     where i is the number of hit (1<i<4224).
     Note that in the calorimeter each hit is filled at the end of the event and
-Line 490 
 BUG FOUND AND FIXED: the set and detecto
+Line 482 
 BUG FOUND AND FIXED: the set and detecto
     The energy deposited in the calorimeter is calculated in GeV.
     To store the hits in the calorimeter the subroutine GSAHIT is used instead of
     GSCHIT.
     To retrieve the hit structure the call to the routine GPRHIT is done instead
     of a call to the GFHITS subroutine.
 February 2003, Bari
  BUG found:
     DCUTEAER, DCUTEAL, DCUTECE, DCUTECP, DCUTEFE, DCUTEG10C, DCUTEG10, DCUTEKAP,
     DCUTEN2G, DCUTEROA, DCUTESCIN, DCUTESICA, DCUTETRAD, DCUTEW2,
-Line 520 
 BUG found:
+Line 512 
 BUG found:
     Updated the relative positions of the calorimeter planes. The corrected
     shifting are:
     first view: (Dxo,Dyo)=(0.10,0.05) cm
     second view: (Dxo,Dyo)=(-0.05,0.10) cm
     third view: (Dxo,Dyo)=(-0.10,-0.05) cm
     fourth view: (Dxo,Dyo)=(0.05,-0.10) cm
 November 2002, Bari
  CAS detectors distances modified
     The distances between the CAS detectors have been modified based on the
     latest CAD drawings.
 November 2002, Bari
-Line 547 
 CALORIMETER geometry upgrade
+Line 539 
 CALORIMETER geometry upgrade
     CALB and CALS. CALS is an aluminum box of dimensions: 48.4*48.4*21.278 cm^3,
     having side-walls 1 cm thick and a bottom of 1 mm. The real box is more
     complicated and the configuration of the bottom should be upgraded if we want
     a reliable description of the event in the S4 scintillator.
 October 2002, Stockholm
-Line 1211 
 CAS dimensions and positions modified
+Line 1203 
 CAS dimensions and positions modified
  CAT dimension modified
     CAT dimensions modified after PAOLO simulation and Tom design. Here
     are the new dimensions:
-         DATA CATB/22.05,21.05,0.55/
+     DATA CATB/22.05,21.05,0.55/
          DATA CATL/15.75,6.675,0.55/
          DATA CATT/6.3,14.375,0.55/
          DATA ZCAT/75.75/

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