======================================================================== New BPC-2000 in H1SIM --------------------- 1. Introduction 2. Geometry set up of BPC 3. Tracking through BPC 4. Digitization of BPC 5. BPC in details 6. Banks _______________________________________________________________________ 1. Introduction ---------------- The backward region of H1 ,mother volume 'BEMC', consists of three different subdetectors: * the backward proportional chambers ('DBPC' -140.55 < z < -150.00 cm ) * the backward electromagnetic and hadronic SPACAL ('BCA1' and 'BCA2') * the backward time of flight walls VLQ ('S1A3' into 'BCA1' and 'S2A3' into 'BCA2') y I I I I |--------------------B E M C---------------------| I | B G A P | I |-DBPC-I-------- BCA1 -|---I------ BCA2 -------I-| I |I II S1A3 | I I S2A3 | I | I |I II | I I | I | I |I II | I I | I | I |I II | I I | I | I |I I---------------------------------------- .| I |I I. . . . . . . | I |------------------------------------------------- I |. .. . . . . . . . | Z-0---------------------------------------------------, cm .. .. . . . . . . . .. .. . . . . . . . -140.55 -150.00 . . . . . . . . . . . . . . . . -135.0 -150.5 -175.5 -200.5. . . .-251.00 cm . . . . -202.0 -227.0 . -250.0 Main routine of program SIMH1 | H1GEA |->GUINIT-> GUGEOM (Geometry) |->GTRIG |-> GUTREV-> GUSTEP (Tracking) |-> GUOUT |-> GULAST | SDIGI (Digitization) Contents _______________________________________________________________________ 2. Geometry set up of BPC --------------------------- The BPC (volume 'DBPC') is located in the 'BEMC' mother volume . GUGEOM |-> SGEOM (for Spacal and BPC into BEMC) |-> DPGEOM (if lconfg .gt. 10) |->UGTBNK ('DGMA' bank ) |->UDFMAT UGTMOD GFMATE GSMATE GPMATE |->UGTBNK ('DGMX' bank ) |->UDFMIX UGTMOD GFMATE GSMIXT GPMATE |->UGTBNK ('DGME' bank ) |->UDFMED UGTMOD GSTMED |->UGTBNK ('DGRO' bank ) |->UDFROT UGTMOD USROTM GSROTM |->UGTBNK ('DGDM' bank ) |->UDFVOL UGTMOD GSDVN GFPARA GSVOLU GSPOS |->GSDETV ('DWVO' is sensitive volume (see 'DGDM' bank)) Input banks: 'DGMA' - BPC geometry material constants 'DGMX' - BPC geometry material mixtures 'DGME' - BPC geometry media parameters 'DGRO' - BPC geometry Rotation matrices 'DGDM' - Matter distribution in BPC Contents 3. Tracking through BPC ------------------------- Tracking through BPC is done by GEANT. Calling sequence of GUSTEP as of TREE program: GUSTEP |-> GEDEPO |-> DBHIT (idtype=506) BKFMT BLIST Output bank : 'DRHT' - geant hit bank Content 4. Digitisation of BPC ------------------------ calling sequence of H1DIGI as of TREE program: SDIGI |-> DBDIGI (If lconfg.ge.10 . Main Digi module for DBPC) |-> BKFMT (Create 'DRME' and 'DRMX' banks) |-> UGDGAM (Get geometry bank 'DGAM') |-> UGTBNK (Get efficiencies bank 'DGMW') |-> ERRLOG (Error if 'DGMW' does not found) |-> GPMWPC (Geant library. Digitization for MWP-Chamber ) |-> H1POIS ((h1util library. Poisson generator) |-> VZERO |-> BLIST (for output 'DRME' and 'DRMX' banks) Input banks of DIG_DBPC module ------------------------------- DGAM - Tracking geometry bank DGMW - Efficiencies bank Output banks of DIG_DBPC module ------------------------------- DRME Backward_Response_Mwpc_Event bank DRMX Backward_Response_Mwpc_X-ref bank _______________________________________________________________________ Contents 5. BPC in details ------------------ The Backward Proportional Chamber BPC is mounted on the electromagnetic SPAgetti CALorimeter (SPACAL) in the mother volume 'BEMC'. It consists of 6 wire upper coordinate planes and of 6 wire down coordinate planes Y(Y1,Y2),U(U1,U2),V(V1,V2) at 0, +60 and -60 grad. Wire plane consists of 296 long + 37 short wires for Y planes and 494 wires for U and V planes, with a spacing of 2.5 mm. Relevant for the BPC are the text banks 'DGDM' and 'DGAM' described here. _______________________________________________________________________ Contents 6. Banks ------------------- Contents *-- Author : A.Koutov 17/04/00 DGMA ! DUBNA- BPC GEOMETRY MATERIAL CONSTANTS *============*===========================*========**================ * * BPC-ELECTRONICS provisionally copied from CIP-ELECTRONIC (CGMA) * 2 ! = Length of subheader Word: 1 4 ! = # of modules +1 000417 ! = YYMMDD OF CREATION +2 * *L|IMAT|Name of the material| A | Z |Density| Rad_l | Abs_l * | | | | | | | * | |19 characters plus $| | |(g/cm3)| (cm) | (cm) 11 563 'G10 $' 17.3 8.6 1.7 19.4 53.0 11 564 'G10-COPPER $' 25.353 11.742 2.001 13.662 48.0 11 568 'BPC-ELECTRONICS $' 45.546 20.92 0.59 28.876 198.0 11 569 'AIR $' 14.61 7. 1.205E-3 30423. 67500.0 * ************************************************************************* Back *-- Author : Koutov A. 17/04/2000 DGMX ! DUBNA- BPC GEOMETRY MATERIAL MIXTURES *============*===========================*========*==========*===== * 2 ! = Length of subheader Word: 1 4 ! = # OF MODULES +1 000417 ! = YYMMDD OF LAST CHANGE +2 * *L|IMAT|Name of the material| RHO |NMIX| A | Z |FRACTION| * | | | | | | | | * | |19 characters plus $|(g/cm3)| | | | | 17 562 'AR/CO2 $' 0.003 -3 12.01 6.0 1.0 ! C 16.00 8.0 2.0 ! O 39.95 18.0 1.0 ! AR 14 565 'HONEYCOMB5 $' 0.047 -2 12.635 6.333 1.0 ! KAPTON 14.61 7.3 24.0 ! AIR 14 566 'HONEYCOMB8 $' 0.029 -2 12.635 6.333 1.0 ! KAPTON 14.61 7.3 24.0 ! AIR 14 567 'CFK $' 7.212 2 6.59 1.12 0.35 ! EPOXY 12.01 6.00 0.65 ! CARBON * ************************************************************************* Back *-- Author : Koutov A. 22/04/2000 DGME ! DUBNA- BPC GEOMETRY MEDIA PARAMETERS *============*===========================*========**============== * 2 != Length of subheader Word: 1 9 != # of modules +1 000417 != DATE OF CREATION +2 * *L|IT |Name of the material| N |I|IF| FI |TMX |DMAX | DEE |EPSIL|STMIN * |MED | | MAT|S|IE| EL | FD | MS | MAX | | * | |19 characters plus $| |V|LD| DM | | | | | 15 561 'VACU $' 1 0 2 12. 10. 0.5 0.2 0.01 0.1 15 562 'AR/CO2 $' 562 1 2 12. 5. 0.5 0.2 0.01 0.1 15 563 'G10 $' 563 0 2 12. 5. 0.5 0.2 0.01 0.1 15 564 'G10-COPPER $' 564 0 2 12. 5. 0.5 0.2 0.01 0.08 15 565 'HONEYCOMB5 $' 565 0 2 12. 5. 0.5 0.2 0.01 0.1 15 566 'HONEYCOMB8 $' 566 0 2 12. 5. 0.5 0.2 0.01 0.1 15 567 'CFK $' 567 0 2 12. 5. 0.5 0.2 0.01 0.03 15 568 'BPC-ELECTRONICS $' 568 0 2 12. 5. 0.5 0.2 0.01 0.1 15 569 'AIR $' 569 0 2 12. 5. 0.5 0.2 0.01 0.1 ************************************************************************ Back *-- Author : Koutov A. 22/04/2000 DGRO ! Dubna- BPC GEOMETRY ROTATION MATRICES * *======*========**=============== * 2 ! = length of subheader word: 1 4 ! = # OF MODULES +1 000417 ! = DATE OF CREATION (YYMMDD) +2 * ! DONT forget to increase length of array in common * ! DROTM if you change # OF MODULES here * * L. # theta1 phi1 theta2 phi2 theta3 phi3 7 0 90.0 0.0 90.0 90.0 0.0 0.0 ! 1.QUADRANT 7 1 90.0 90.0 90.0 180.0 0.0 0.0 ! 2.QUADRANT 7 2 90.0 180.0 90.0 270.0 0.0 0.0 ! 3.QUADRANT 7 3 90.0 270.0 90.0 0.0 0.0 0.0 ! 4.QUADRANT ************************************************************************* Back *-- Author : Koutov A. 17/04/00 DGDM ! MATTER DISTRIBUTION IN BACKWARD PROPORTIONAL CHAMBER * ==================================================== * (for LCONFG=10, 2000) * 2 ! = length of subheader word: 1 37 ! = # of modules +1 000417 ! = date of creation (YYMMDD) +2 *L 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 * GEANT | Name | Mother| Medium| R0 | PHI0 | Z0 | NCOPY |IROTM * # Shape| * | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 * 1 BOX | Zmin | Zmax | Delx | Dely | * 2 TRD1 | Zmin | Zmax | Delx1 | Delx2 | Dely | * 3 TRD2 | Zmin | Zmax | Delx1 | Delx2 | Dely1 | Dely2 | * 4 TRAP | Zmin | Zmax | Theta | Phi | H1/2 | LB1/2 | LH1/2 | TH1/2 * 5 TUBE | Zmin | Zmax | Rmin | Rmax | * 6 TUBS | Zmin | Zmax | Rmin | Rmax | Phi1 | Phi2 | * 7 CONE | Zmin | Zmax | Rmin1 | Rmax1 | Rmin2 | Rmax2 | * 8 CONS | Zmin | Zmax | Rmin1 | Rmax1 | Rmin2 | Rmax2 | Phi1 | Phi2 * 9 SPHE | Rmin | Rmax | THmin | THmax | PHmin | PHmax | *10 PARA | Zmin | Zmax | Delx | Dely | Alpha | Theta | Phi | *11 PGON | PHmin | Delphi| NPDV | NZ | Z | Rmin | Rmax | *12 PCON | PHmin | Delphi| NZ | Z | Rmin | Rmax | * | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 *13 GTRA | Zmin | Zmax | Th | Ph | TW | Y1/2 | XL1/2 | XH1/2 | TH1/2 *----------------------------------------------------------------------- * * * Outward contour of BDC : vacuum 13 'TUBE' 'DBPC' 'BEMC' 569 0.00 0.00 0.00 1 0 -150.00 -140.55 10.00 80.00 * Outward pgon Up and Down : vacuum 19 'PGON' 'DPCO' 'DBPC' 561 0.00 0.00 -150.00 1 0 0.00 180.00 3 2 0.00 10.00 68.75 9.45 10.00 68.75 19 'PGON' 'DPCO' 'DBPC' 561 0.00 270.00 -150.00 2 2 0.00 180.00 3 2 0.00 10.00 68.75 9.45 10.00 68.75 * **Honeycomb t=8 mm backward side #1 ** * G10 - copper 19 'PGON' 'DGC8' 'DPCO' 564 0.00 0.00 0.00 1 0 0.00 180.00 3 2 0.00 10.00 68.75 1.10 10.00 68.75 * G10- bar : t=0.94 cm 19 'PGON' 'DGB8' 'DGC8' 563 0.00 0.00 0.00 1 0 0.00 180.00 3 2 0.08 10.00 68.75 1.02 10.00 68.75 * CFK - epoxyde+carbon : t=0.94 cm 19 'PGON' 'DCF8' 'DGB8' 567 0.00 0.00 0.00 1 0 0.00 180.00 3 2 0.08 14.00 64.75 1.02 14.00 64.75 * Honycomb8 : t=0.8 cm 19 'PGON' 'DHC8' 'DCF8' 566 0.00 0.00 0.00 1 0 0.00 180.00 3 2 0.15 14.00 64.65 0.95 14.00 64.65 * Horizontal G10 planes : left side 16 'PARA' 'DG11' 'DHC8' 563 44.28 2.56 0.00 1 0 0.08 0.15 29.26 2.00 -30.00 0.00 0.00 * Horizontal G10 planes : left side 16 'PARA' 'DG12' 'DHC8' 563 44.28 2.56 0.00 1 0 0.15 0.95 29.26 2.00 -30.00 0.00 0.00 * Horizontal G10 planes : left side 16 'PARA' 'DG13' 'DHC8' 563 44.28 2.56 0.00 1 0 0.95 1.02 29.26 2.00 -30.00 0.00 0.00 * Horizontal G10 planes : right side 16 'PARA' 'DG14' 'DHC8' 563 44.28 177.44 0.00 1 0 0.08 0.15 29.26 2.00 30.00 0.00 0.00 * Horizontal G10 planes : right side 16 'PARA' 'DG15' 'DHC8' 563 44.28 177.44 0.00 1 0 0.15 0.95 29.26 2.00 30.00 0.00 0.00 * Horizontal G10 planes : right side 16 'PARA' 'DG16' 'DHC8' 563 44.28 177.44 0.00 1 0 0.95 1.02 29.26 2.00 30.00 0.00 0.00 * *** Gas-Wire volumes ,#1 *** * G10 - bar : t=0.6 cm 19 'PGON' 'DWGB' 'DPCO' 563 0.00 0.00 1.10 1 0 0.00 180.00 3 2 0.00 10.00 68.75 0.60 10.00 68.75 * Wire V1 : AR/CO2 - gas : t=0.6 cm 19 'PGON' 'DWVO' 'DWGB' 562 0.00 0.00 0.00 1 0 0.00 180.00 3 2 0.00 14.0 64.75 0.60 14.0 64.75 * Horizontal G10 planes : left side 16 'PARA' 'DGP3' 'DWVO' 563 44.38 2.56 0.00 1 0 0.00 0.60 29.32 2.00 -30.00 0.00 0.00 * Horizontal G10 planes : right side 16 'PARA' 'DGP4' 'DWVO' 563 44.38 177.44 0.00 1 0 0.00 0.60 29.32 2.00 30.00 0.00 0.00 * ** Honeycomb volumes t=5 mm ,#1 ** * G11 - cathod: t=0.08 cm (G10-copper) 19 'PGON' 'DGC5' 'DPCO' 564 0.00 0.00 1.70 1 0 0.00 180.00 3 2 0.00 10.00 68.75 0.73 10.00 68.75 * G10 - bar : t=0.64 cm = 0.5 + 0.07 + 0.07 19 'PGON' 'DGB5' 'DGC5' 563 0.00 0.00 0.00 1 0 0.00 180.00 3 2 0.08 10.00 68.75 0.65 10.00 68.75 * CFK - epoxyde+carbon : t=0.64 cm 19 'PGON' 'DCF5' 'DGB5' 567 0.00 0.00 0.00 1 0 0.00 180.00 3 2 0.08 14.00 64.75 0.65 14.00 64.75 * Honycomb t=5 mm 19 'PGON' 'DHC5' 'DCF5' 565 0.00 0.00 0.00 1 0 0.00 180.00 3 2 0.12 14.00 64.65 0.62 14.00 64.65 * Horizontal G10 planes : left side 16 'PARA' 'DG21' 'DHC5' 563 44.28 2.56 0.00 1 0 0.08 0.12 29.26 2.00 -30.00 0.00 0.00 * Horizontal G10 planes : left side 16 'PARA' 'DG22' 'DHC5' 563 44.28 2.56 0.00 1 0 0.12 0.62 29.26 2.00 -30.00 0.00 0.00 * Horizontal G10 planes : left side 16 'PARA' 'DG23' 'DHC5' 563 44.28 2.56 0.00 1 0 0.62 0.65 29.26 2.00 -30.00 0.00 0.00 * Horizontal G10 planes : right side 16 'PARA' 'DG24' 'DHC5' 563 44.28 177.44 0.00 1 0 0.08 0.12 29.26 2.00 30.00 0.00 0.00 * Horizontal G10 planes : right side 16 'PARA' 'DG25' 'DHC5' 563 44.28 177.44 0.00 1 0 0.12 0.62 29.26 2.00 30.00 0.00 0.00 * Horizontal G10 planes : right side 16 'PARA' 'DG26' 'DHC5' 563 44.28 177.44 0.00 1 0 0.62 0.65 29.26 2.00 30.00 0.00 0.00 * ** Gas-Wire volumes ,#2 *** 19 'PGON' 'DWGB' 'DPCO' 563 0.00 0.00 2.43 2 0 0.00 180.00 3 2 0.00 10.00 68.75 0.60 10.00 68.75 * ** Honeycomb t=5 mm ,#2 ** 19 'PGON' 'DGC5' 'DPCO' 564 0.00 0.00 3.03 2 0 0.00 180.00 3 2 0.00 10.00 68.75 0.73 10.00 68.75 * ** Gas-Wire volumes ,#3 *** 19 'PGON' 'DWGB' 'DPCO' 563 0.00 0.00 3.76 3 0 0.00 180.00 3 2 0.00 10.00 68.75 0.60 10.00 68.75 * ** Honeycomb t=5 mm ,#3 ** 19 'PGON' 'DGC5' 'DPCO' 564 0.00 0.00 4.36 3 0 0.00 180.00 3 2 0.00 10.0 68.75 0.73 10.0 68.75 * ** Gas-Wire volumes ,#4 *** 19 'PGON' 'DWGB' 'DPCO' 563 0.00 0.00 5.09 4 0 0.00 180.00 3 2 0.00 10.00 68.75 0.60 10.00 68.75 * ** Honeycomb t=5 mm ,#4 ** 19 'PGON' 'DGC5' 'DPCO' 564 0.00 0.00 5.69 4 0 0.00 180.00 3 2 0.00 10.0 68.75 0.73 10.0 68.75 * ** Gas-Wire volumes ,#5 *** 19 'PGON' 'DWGB' 'DPCO' 563 0.00 0.00 6.42 5 0 0.00 180.00 3 2 0.00 10.00 68.75 0.60 10.00 68.75 * ** Honeycomb t=5 mm ,#5 ** 19 'PGON' 'DGC5' 'DPCO' 564 0.00 0.00 7.02 5 0 0.00 180.00 3 2 0.00 10.0 68.75 0.73 10.0 68.75 * ** Gas-Wire volumes ,#6 *** 19 'PGON' 'DWGB' 'DPCO' 563 0.00 0.00 7.75 6 0 0.00 180.00 3 2 0.00 10.00 68.75 0.60 10.00 68.75 * **Honeycomb t=8 mm forward side #2 ** 19 'PGON' 'DGC8' 'DPCO' 564 0.00 0.00 8.35 2 0 0.00 180.00 3 2 0.00 10.00 68.75 1.10 10.00 68.75 ******************************************************************* Back *-- Author : A.Koutov ! BANKname BANKtype !Comments ! TABLE DRHT ! Dubna BPC: geant hit bank ! tracking data ! ATTributes: ! ----------- !COL ATT-name FMT Min Max !Comments ! 1 NW I 0 11 | number of module 2 XIN F -80. 80. ! x at DC entrance 3 YIN F -80. 80. ! y at DC entrance 4 ZIN F -150. -140. ! z at DC entrance 5 XOUT F -80. 80. ! x at DC exit 6 YOUT F -80. 80. ! y at DC exit 7 ZOUT F -150. -140. ! z at DC exit 8 ITRHIS I 0 +INF ! tracking history word 9 ITRA I -INF +INF ! number of track END TABLE Back ******************************************************************* *-- Author : Kapishin M. 03/05/00 DGAM ! Backward Tracking Geometry Active DBPC Chambers * *=================*========*======*============ * 5 ! = # of header words word: 280400 ! = DDMMYY date of last update 1 12 ! = # of modules 2 14. ! = inner chamber radius 3 64.75 ! = maximum value of each (Y,U,V) coordinate 4 0.25 ! = pitch , distance between wires 5 * * Upper chambers * Up , Y1 6 ! = # of words in module description 0 ! = module number +1 236 ! = # of wires +2 -148.60 ! = z - position +3 90. ! = phi - orientation of wires +4 4.75 ! = Y min (0 sensitive wire) (4.75) +5 37 ! = # of additional wires +6 * * Up , Y2 6 ! = # of words in module description 1 ! = module number +1 236 ! = # of wires +2 -147.27 ! = z - position +3 90. ! = phi - orientation of wires +4 4.875 ! = Y min (0 sensitive wire) (4.875) +5 37 ! = # of additional wires +6 * * Up, V1 6 ! = # of words in module description 2 ! = module number +1 494 ! = # of wires +2 -145.94 ! = z - position +3 150.0 ! = phi - orientation +4 -59.75 ! = U min (0 sensitive wire) (-59.75) +5 0 ! = # of additional wires +6 * Up, V2 6 ! = # of words in module description 3 ! = module number +1 494 ! = # of wires per plane +2 -144.61 ! = z - position +3 150.0 ! = phi - orientation +4 -59.625 ! = U min (0 sensitive wire) (-59.625) +5 0 ! = # of additional wires +6 * Up, U1 6 ! = # of words in module description 4 ! = module number +1 494 ! = # of wires +2 -143.28 ! = z - position +3 30. ! = phi - orientation +4 -59.75 ! = V min (0 sensitive wire) (-59.75) +5 0 ! = # of additional wires +6 * Up, U2 6 ! = # of words in module description 5 ! = module number +1 494 ! = # of wires per plane +2 -141.95 ! = z - position +3 30.0 ! = phi - orientation +4 -59.625 ! = V min (0 sensitive wire) (-59.625) +5 0 ! = # of additional wires +6 * * Down chambers * * Down , Y1 6 ! = # of words in module description 6 ! = module number +1 236 ! = # of wires +2 -148.60 ! = z - position +3 90. ! = phi - orientation of wires +4 -64.00 ! = Y min (0 sensitive wire) +5 37 ! = # of additional wires +6 * * Down , Y2 6 ! = # of words in module description 7 ! = module number +1 236 ! = # of wires +2 -147.27 ! = z - position +3 90. ! = phi - orientation of wires +4 -63.875 ! = Y min (0 sensitive wire) (-63.875) +5 37 ! = # of additional wires +6 * * Down, V1 6 ! = # of words in module description 8 ! = module number +1 494 ! = # of wires +2 -145.94 ! = z - position +3 150.0 ! = phi - orientation +4 -64.00 ! = U min (0 sensitive wire) +5 0 ! = # of additional wires +6 * Down, V2 6 ! = # of words in module description 9 ! = module number +1 494 ! = # of wires per plane +2 -144.61 ! = z - position +3 150.0 ! = phi - orientation +4 -63.875 ! = U min (0 sensitive wire) (-63.875) +5 0 ! = # of additional wires +6 * Down, U1 6 ! = # of words in module description 10 ! = module number +1 494 ! = # of wires +2 -143.28 ! = z - position +3 30. ! = phi - orientation +4 -64.00 ! = V min (0 sensitive wire) +5 0 ! = # of additional wires +6 * Down, U2 6 ! = # of words in module description 11 ! = module number +1 494 ! = # of wires per plane +2 -141.95 ! = z - position +3 30.0 ! = phi - orientation +4 -63.875 ! = V min (0 sensitive wire) (-63.875) +5 0 ! = # of additional wires +6 *********************************************************************** Back *-- Author : Potrebenikov Yu. 03/05/2000 DGMW 0 / ! Bank of efficiencies for Dubna BPC * *=================*========*======*============ 3 12 ! NCOL NROW * Plane Effic. Noise * Up 0 1.0 0.0 ! Y1 1 1.0 0.0 ! Y2 2 1.0 0.0 ! U1 3 1.0 0.0 ! U2 4 1.0 0.0 ! V1 5 1.0 0.0 ! V2 * Down 6 1.0 0.0 ! Y1 7 1.0 0.0 ! Y2 8 1.0 0.0 ! U1 9 1.0 0.0 ! U2 10 1.0 0.0 ! V1 11 1.0 0.0 ! V2 DGMW $FMT '2I,(I,2F)' ********************************************************************** Back *-- Author : Potrebenikov Yu. ! BANKname BANKtype !Comments ! TABLE DRME B16 ! Backward_Response_Mwpc_Event bank ! (digitisations) ! ATTributes: ! ----------- !COL ATT-name FMT Min Max !Comments ! 1 IWORD I 0 11494 ! 1000*(chamber plane - 1) + wire number ! END TABLE Back ******************************************************************** *-- Author : Thomas Naumann 31/03/92 ! BANKname BANKtype !Comments ! TABLE DRMX B16 ! Backward_Response_MWPC_X-ref bank ! STR/DIGI X-ref bank ! RELations: ! ---------- !COL RELname RELtype INTbank !Comments ! (COL) ! 1 STR DMT1 ! track no. in STR bank 2 DRME DMT1 ! hit no. in DRME bank END TABLE Back ******************************************************************** Author :A.Kutov