path: root/Dragon/src/CFCDRV.f

*DECK CFCDRV
      SUBROUTINE CFCDRV (IPRINT,NENTRY,KENTRY,HENTRY,NBURN,NGRP,NISO,
     1 NL,CTITRE,TEX,NXS,NBPARA,DBPARA)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Driver for the construction of a feedback database.
*
*Copyright:
* Copyright (C) 1996 Ecole Polytechnique de Montreal
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
*Author(s): M. T. Sissaoui
*
*Parameters: input
* IPRINT  print level.
* NENTRY  number of LCM objects.
* KENTRY  address of the LCM objects.
* HENTRY  name of the LCM objects.
* NBURN   number of burnup steps.
* NGRP    number of energy groups.
* NISO    1+number of extracted isotopes.
* NL      number of Legendre orders.
* CTITRE  execution title.
* TEX     database name.
* NXS     number of reactions (equal to 21+NL).
* NBPARA  number of parameters for FBM.
* DBPARA  values of parameters for FBM.
*
*-----------------------------------------------------------------------
*
      USE GANLIB
*----
*  SUBROUTINE ARGUMENTS
*----
      TYPE(C_PTR) KENTRY(NENTRY)
      INTEGER     IPRINT,NENTRY,NBURN,NGRP,NISO,NL,NXS,NBPARA
      CHARACTER   HENTRY(NENTRY)*12,TEX*9
      REAL        DBPARA(NBPARA)
*----
*  LOCAL PARAMETERS
*----
      TYPE(C_PTR) IPLISU,IPLISD,IPFBM,IPLIST,IPHISU,IPHISD,IPHIST
      INTEGER     IOUT,NSTATE
      PARAMETER  (IOUT=6,NSTATE=40)
      CHARACTER   TEXT1*8,CM*2,TEXT2*8,HMICRO*12,
     1            TEXTB*12,TEXT(2)*12,TEXTR*12,TEXT12*12,CTITRE*72
      INTEGER     ISTATE(NSTATE),IPAR(5),HTITLE(18)
      REAL        XP(7)
*----
*  ALLOCATABLE STATEMENTS
*----
      INTEGER, ALLOCATABLE, DIMENSION(:) :: IJJ,NJJ,MIJ,MNJ,HISO,JTAB,
     1 IXS
      REAL, ALLOCATABLE, DIMENSION(:) :: WORK3,DENSIT,EFJ,KBUR,KB
      REAL, ALLOCATABLE, DIMENSION(:) :: TOT2,ZN2,DXF2,DYF2,DZF2,HF2,
     1 SCA2,MIRCT2,MIRCS2,MICDX2,MICDY2,MICDZ2,V2,MIRCF2,MIRCH2
      REAL, ALLOCATABLE, DIMENSION(:) :: FLUI3,FLDIS3,OV3,DIFD3,NF3,
     1 CHI3,MCHI3
      REAL, ALLOCATABLE, DIMENSION(:,:) :: TOTAL,ZNUG,DIFFX,DIFFY,DIFFZ,
     1 H,REFC,DELTA
      REAL, ALLOCATABLE, DIMENSION(:,:,:) :: TMREF,DMRFX,DMRFY,DMRFZ,
     1 FMREF,HMREF
      REAL, ALLOCATABLE, DIMENSION(:,:,:,:) :: SCAT
      REAL, ALLOCATABLE, DIMENSION(:,:,:,:,:) :: SMREF
*----
*  SCRATCH STORAGE ALLOCATION
*----
      ALLOCATE(IJJ(NL*NGRP),NJJ(NL*NGRP),MIJ(NL*NGRP),MNJ(NL*NGRP),
     1 HISO(3*NISO),JTAB(NISO),IXS(NXS))
      ALLOCATE(TOTAL(NGRP,NBURN),ZNUG(NGRP,NBURN),DIFFX(NGRP,NBURN),
     1 DIFFY(NGRP,NBURN),DIFFZ(NGRP,NBURN),H(NGRP,NBURN),
     2 SCAT(NBURN,NL,NGRP,NGRP),WORK3(NGRP*(NGRP+1)),DENSIT(NISO),
     3 EFJ(NISO),TMREF(NGRP,NBURN,NISO),SMREF(NISO,NBURN,NL,NGRP,NGRP),
     4 DMRFX(NGRP,NBURN,NISO),DMRFY(NGRP,NBURN,NISO),
     5 DMRFZ(NGRP,NBURN,NISO),REFC(NBURN,NISO),FMREF(NGRP,NBURN,NISO),
     6 HMREF(NGRP,NBURN,NISO),DELTA(NBURN,2))
*-----
*  REFERENCE(NOMINAL) LOCAL PARAMETER
*-----
      PWR=DBPARA(1)
      TCR=DBPARA(2)
      TMR=DBPARA(3)
      TFR=DBPARA(4)
      RHOM=DBPARA(5)
      RHOC=DBPARA(6)
      XIR=DBPARA(7)
      TFU=DBPARA(8)
      TCU=DBPARA(9)
      PWUL=DBPARA(10)
      PWDL=DBPARA(11)
      PWU=DBPARA(12)
      PWD=DBPARA(13)
      XI=DBPARA(14)
C
C     FLAG FOR COLLISION PROBABILITY CALCULATION
C     IXYZ=0  PIJ  CALCULATION
C     IXYZ=1  PIJK  CALCULATION
C
       IXYZ=0
C-----
C     CHECK NGRP AND NBURN
C-----
      IF(NBURN.EQ.0) CALL XABORT('CFCDRV: ZERO NUMBER OF MIXTURES.')
      IF(NGRP.EQ.0)  CALL XABORT('CFCDRV: ZERO NUMBER OF GROUPS.')
C
C     ONLY THE FIRST ORDER IS CONSIDERED IN FBM
C
C----------------------------------------------------------------------C
C-----
C     DYNAMIC MEMORY ALLOCATION
C-----
      ALLOCATE(TOT2(2*NBURN*NGRP),ZN2(2*NBURN*NGRP),DXF2(2*NBURN*NGRP),
     1 DYF2(2*NBURN*NGRP),DZF2(2*NBURN*NGRP),HF2(2*NBURN*NGRP),
     2 SCA2(2*NBURN*NL*NGRP*NGRP),MIRCT2(2*NBURN*NISO*NGRP),
     3 MIRCS2(2*NBURN*NL*NGRP*NGRP*NISO),MICDX2(2*NBURN*NISO*NGRP),
     4 MICDY2(2*NBURN*NISO*NGRP),MICDZ2(2*NBURN*NISO*NGRP),V2(16*NBURN),
     5 MIRCF2(2*NBURN*NISO*NGRP),MIRCH2(2*NBURN*NISO*NGRP))
C
C-----
C     DATABASE FILE UNIT NUMBER
C-----
         IPFBM=KENTRY(1)
C-----
C     STOTRE THE NOMINAL LOCAL PARAMETER IN THE DATABASE
C     IP=1 FOR THE FUEL
C     IP=2 FOR THE REFLECTOR
C-----
        DO 801 IP=1,2
C
C     INITIALIZATION OF THE MATRICES.
C
      JTAB(:NISO)=0
      TOTAL(:NGRP,:NBURN)=0.0
      ZNUG(:NGRP,:NBURN)=0.0
      DIFFX(:NGRP,:NBURN)=0.0
      DIFFY(:NGRP,:NBURN)=0.0
      DIFFZ(:NGRP,:NBURN)=0.0
      H(:NGRP,:NBURN)=0.0
      TMREF(:NGRP,:NBURN,:NISO)=0.0
      DMRFX(:NGRP,:NBURN,:NISO)=0.0
      DMRFY(:NGRP,:NBURN,:NISO)=0.0
      DMRFZ(:NGRP,:NBURN,:NISO)=0.0
      FMREF(:NGRP,:NBURN,:NISO)=0.0
      HMREF(:NGRP,:NBURN,:NISO)=0.0
      SCAT(:NBURN,:NL,:NGRP,:NGRP)=0.0
      SMREF(:NISO,:NBURN,:NL,:NGRP,:NGRP)=0.0
      DO 10 IGR=1,NGRP
      IJJ(IGR)=IGR
      NJJ(IGR)=1
      MIJ(IGR)=IGR
      MNJ(IGR)=1
  10  CONTINUE
C
        DO 44 ILOC=1,7
        IF(ILOC.EQ.1) THEN
        HMICRO='PW'
        XP(ILOC)=PWR
        ELSE IF(ILOC.EQ.2) THEN
        HMICRO='TCOOL'
        XP(ILOC)=TCR
        ELSE IF(ILOC.EQ.3) THEN
        HMICRO='TMOD'
        XP(ILOC)=TMR
        ELSE IF(ILOC.EQ.4) THEN
        HMICRO='TFUEL'
        XP(ILOC)=TFR
        ELSE IF(ILOC.EQ.5) THEN
        HMICRO='RHOC'
        XP(ILOC)=RHOC
        ELSE IF(ILOC.EQ.6) THEN
        HMICRO='RHOM'
        XP(ILOC)=RHOM
        ELSE IF(ILOC.EQ.7) THEN
        HMICRO='PUR'
        XP(ILOC)=XIR
        ENDIF
        READ(HMICRO,'(3A4)') (HISO((ILOC-1)*3+IH),IH=1,3)
  44    CONTINUE
C-----
C        TYPE OF PROPERTIES
C-----
         IF(IP.EQ.1) THEN
         IPLIST=KENTRY(2)
         TEXTR='FUL'//TEX
         ELSE
         IPLIST=KENTRY(23)
         TEXTR='MOD'//TEX
         ENDIF
C----------------------------------------------------------------------C
C-----
C     RECOVER AND STORE NEUTRONICS PARAMETRES
C-----
         IF(IP.EQ.1) THEN
          CALL LCMSIX(IPFBM,TEXTR,1)
          CALL LCMSIX(IPFBM,'INFO-NOMINA',1)
          CALL LCMPUT(IPFBM,'NOMINALN',3*7,3,HISO)
          CALL LCMPUT(IPFBM,'NOMINALP',7,2,XP)
          CALL LCMSIX(IPFBM,' ',2)
          READ(CTITRE,'(18A4)') (HTITLE(I),I=1,18)
          CALL LCMPUT(IPFBM,'TITLE',18,3,HTITLE)
          IPAR(1)=NGRP
          IPAR(2)=NISO
          IPAR(3)=NL
          IPAR(4)=NBURN
          NBUM=NBURN
          NISM=NISO
          CALL LCMPUT(IPFBM,'PARAM',4,1,IPAR)
          CALL LCMSIX(IPFBM,' ',2)
         ELSE
          TEXT12='SIGNATURE'
          CALL LCMNXT(IPLIST,TEXT12)
C
          IF(TEXT12.EQ.'SIGNATURE') CALL XABORT('CFCDRV: '
     1 //'INVALID INPUT COMPO.')
          CALL LCMGET(IPLIST,'STATE-VECTOR',ISTATE)
          CALL LCMSIX(IPLIST,TEXT12,1)
          CALL LCMSIX(IPLIST,' ',2)
          NGRP=ISTATE(2)
          NISO=ISTATE(3)
          NL=ISTATE(4)
          NBURN=ISTATE(5)
C
          CALL LCMSIX(IPFBM,TEXTR,1)
          CALL LCMSIX(IPFBM,'INFO-NOMINA',1)
          CALL LCMPUT(IPFBM,'NOMINALN',3*7,3,HISO)
          CALL LCMPUT(IPFBM,'NOMINALP',7,2,XP)
          CALL LCMSIX(IPFBM,' ',2)
          READ(CTITRE,'(18A4)') (HTITLE(I),I=1,18)
          CALL LCMPUT(IPFBM,'TITLE',18,3,HTITLE)
          CALL LCMSIX(IPFBM,' ',2)
         ENDIF
C
C        RECOVER INFORMATION FROM CPO FILE(NOMINAL)
C
         ALLOCATE(KB(NBURN),KBUR(NBURN))
         IF(IP.EQ.1) THEN
         CALL LCMSIX(IPLIST,'REF        1',1)
         ELSE
         CALL LCMSIX(IPLIST,'MODREF     1',1)
         ENDIF
         CALL LCMGET(IPLIST,'ISOTOPESNAME',HISO)
         CALL LCMGET(IPLIST,'VOLUME',VOL)
         CALL LCMGET(IPLIST,'ENERGY',WORK3)
         CALL LCMGET(IPLIST,'BURNUP',KBUR)
         CALL LCMGET(IPLIST,'N/KB',KB)
         CALL LCMSIX(IPLIST,' ',2)
C
C        STORE INFORMATION IN THE DATABASE
C
         CALL LCMSIX(IPFBM,TEXTR,1)
         CALL LCMPUT(IPFBM,'HITAB',3*NISO,3,HISO)
         CALL LCMPUT(IPFBM,'VOLUME',1,2,VOL)
         CALL LCMPUT(IPFBM,'ENERGY',NGRP+1,2,WORK3)
         CALL LCMPUT(IPFBM,'BURNUP',NBURN,2,KBUR)
         CALL LCMPUT(IPFBM,'N/KB',NBURN,2,KB)
         CALL LCMSIX(IPFBM,' ',2)
C
         DEALLOCATE(KBUR,KB)
C-----
C     GOING DOWN TO THE MACR AND MICR SUB-DIRECTORIES
C-----
C
C        DYNAMIC ALLOCATION MEMORY
C
         ALLOCATE(FLUI3(NGRP),FLDIS3(NGRP),OV3(NGRP),DIFD3(3*NGRP),
     1   NF3(NGRP),CHI3(NGRP),MCHI3(NGRP))
C
         DO 20 I=1,NBURN
         WRITE(TEXTB,'(4HBURN,4X,I4)') I
         IF(IP.EQ.1) THEN
         CALL LCMSIX(IPLIST,'REF        1',1)
         ELSE
         CALL LCMSIX(IPLIST,'MODREF     1',1)
         ENDIF
         CALL LCMSIX(IPLIST,TEXTB,1)
         CALL LCMGET(IPLIST,'ISOTOPESDENS',DENSIT)
         CALL LCMGET(IPLIST,'ISOTOPES-EFJ',EFJ)
         IF(DENSIT(1).NE.1.0) CALL XABORT('FBM: DENSIT(1).NE.1.')
         CALL LCMGET(IPLIST,'FLUX-INTG',FLUI3)
         CALL LCMGET(IPLIST,'FLUXDISAFACT',FLDIS3)
         CALL LCMGET(IPLIST,'OVERV',OV3)
C-----
C        RECOVER MACROSCOPIC  X-SECTIONS.
C-----
         CALL LCMSIX(IPLIST,'MACR',1)
         IXS(:NXS)=0
         CALL LCMGET(IPLIST,'XS-SAVED',IXS)
         CALL LCMGET(IPLIST,'SCAT-SAVED',IXS(21))
         IF(IXS(18).EQ.1) IXYZ=1
         IF(IXS(3).EQ.1)  JTAB(1)=1
C
         IF(IXS(1).EQ.1) CALL LCMGET(IPLIST,'TOTAL',TOTAL(1,I))
         IF(IXS(3).EQ.1) CALL LCMGET(IPLIST,'NUSIGF',ZNUG(1,I))
         IF(IXS(4).EQ.1) THEN
           CALL LCMGET(IPLIST,'NFTOT',NF3)
           CALL LCMGET(IPLIST,'NFTOT',H(1,I))
           DO 11 IGR=1,NGRP
           H(IGR,I)=H(IGR,I)*EFJ(1)
  11       CONTINUE
         ENDIF
         IF(IXS(5).EQ.1) CALL LCMGET(IPLIST,'CHI',CHI3)
         IF(IXS(17).EQ.1) CALL LCMGET(IPLIST,'STRD  ',DIFFX(1,I))
         IF(IXS(18).EQ.1) CALL LCMGET(IPLIST,'STRD X',DIFFX(1,I))
         IF(IXS(19).EQ.1) CALL LCMGET(IPLIST,'STRD Y',DIFFY(1,I))
         IF(IXS(20).EQ.1) CALL LCMGET(IPLIST,'STRD Z',DIFFZ(1,I))
         CALL LCMLEN(IPLIST,'NUSIGF',ILENGF,ITYLCM)
C
C        RECOVER SCATTERING X-SECTIONS.
C
         IL=1
         WRITE (CM,'(I2.2)') IL-1
         IF(IXS(20+IL).EQ.1) THEN
         CALL LCMGET(IPLIST,'SIGS'//CM,WORK3)
         DO 110 IGR=1,NGRP
         TOTAL(IGR,I)= TOTAL(IGR,I)-WORK3(IGR)
 110     CONTINUE
C
         CALL LCMLEN(IPLIST,'SCAT'//CM,LENGT,ITYLCM)
         CALL LCMGET(IPLIST,'SCAT'//CM,WORK3)
         CALL LCMGET(IPLIST,'NJJS'//CM,NJJ)
         CALL LCMGET(IPLIST,'IJJS'//CM,IJJ)
         IGAR=0
         DO 125 JGR=1,NGRP
         DO 120 IGR=IJJ(JGR),IJJ(JGR)-NJJ(JGR)+1,-1
         IGAR=IGAR+1
         SCAT(I,IL,IGR,JGR)=WORK3(IGAR)
  120    CONTINUE
  125    CONTINUE
        ENDIF
C
         CALL LCMSIX(IPLIST,' ',2)
C-----
C       RECOVER MICROSCOPIC  X-SECTIONS.
C-----
        DO 40 ISO=2,NISO
        IF(DENSIT(ISO).EQ.0.0) GO TO 40
        WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
        REFC(I,ISO)=DENSIT(ISO)
        CALL LCMSIX(IPLIST,HMICRO,1)
        CALL LCMGET(IPLIST,'XS-SAVED',IXS)
        CALL LCMGET(IPLIST,'SCAT-SAVED',IXS(21))
        IF(IXS(3).EQ.1)  JTAB(ISO)=1
        IF(IXS(1).EQ.1) CALL LCMGET(IPLIST,'TOTAL',TMREF(1,I,ISO))
C
C       COMPUTE THE ABSORPTION XS
C
        IL=1
        WRITE (CM,'(I2.2)') IL-1
         IF(IXS(20+IL).EQ.1) THEN
          CALL LCMGET(IPLIST,'SIGS'//CM,WORK3)
          DO 231 IGR=1,NGRP
          TMREF(IGR,I,ISO)= TMREF(IGR,I,ISO)-WORK3(IGR)
 231      CONTINUE
         ENDIF
C
         IF(IXS(17).EQ.1) CALL LCMGET(IPLIST,'STRD  ',DMRFX(1,I,ISO))
         IF(IXS(18).EQ.1) CALL LCMGET(IPLIST,'STRD X',DMRFX(1,I,ISO))
         IF(IXS(19).EQ.1) CALL LCMGET(IPLIST,'STRD Y',DMRFY(1,I,ISO))
         IF(IXS(20).EQ.1) CALL LCMGET(IPLIST,'STRD Z',DMRFZ(1,I,ISO))
C
C      ADD THE CONTRIBURTION OF THE MICR. X-SECTIONS
C
       DO 721 IGR=1,NGRP
       TOTAL(IGR,I)=TOTAL(IGR,I) + DENSIT(ISO)*TMREF(IGR,I,ISO)
       DIFFX(IGR,I)=DIFFX(IGR,I) + DENSIT(ISO)*DMRFX(IGR,I,ISO)
       DIFFY(IGR,I)=DIFFY(IGR,I) + DENSIT(ISO)*DMRFY(IGR,I,ISO)
       DIFFZ(IGR,I)=DIFFZ(IGR,I) + DENSIT(ISO)*DMRFZ(IGR,I,ISO)
  721  CONTINUE
C
       IF(IXS(3).EQ.1) THEN
       CALL LCMGET(IPLIST,'NUSIGF',FMREF(1,I,ISO))
       DO 30 IGR=1,NGRP
       ZNUG(IGR,I)=ZNUG(IGR,I) + DENSIT(ISO)*FMREF(IGR,I,ISO)
 30    CONTINUE
       ENDIF
       IF(IXS(4).EQ.1) THEN
          CALL LCMGET(IPLIST,'NFTOT',WORK3)
          CALL LCMGET(IPLIST,'NFTOT',HMREF(1,I,ISO))
          DO 31 IGR=1,NGRP
          HMREF(IGR,I,ISO)=HMREF(IGR,I,ISO)*EFJ(ISO)
          NF3(IGR)=NF3(IGR)+DENSIT(ISO)*WORK3(IGR)
          H(IGR,I)=H(IGR,I) + DENSIT(ISO)*HMREF(IGR,I,ISO)
  31      CONTINUE
         ENDIF
         IF(IXS(5).EQ.1) CALL LCMGET(IPLIST,'CHI',MCHI3)
      CALL LCMSIX(IPLIST,' ',2)
   40 CONTINUE
         CALL LCMSIX(IPLIST,' ',2)
         CALL LCMSIX(IPLIST,' ',2)
C----------------------------------------------------------------------C
C-----
C     STORE PROPERTIES
C-----
         CALL LCMSIX(IPFBM,TEXTR,1)
C
         CALL LCMPUT(IPFBM,'JTAB',NISO,1,JTAB)
C
         CALL LCMSIX(IPFBM,TEXTB,1)
         CALL LCMPUT(IPFBM,'ISOTOPESDENS',NISO,2,DENSIT)
         CALL LCMPUT(IPFBM,'FLUX-INTG',NGRP,2,FLUI3)
         CALL LCMPUT(IPFBM,'OVERV',NGRP,2,OV3)
         CALL LCMPUT(IPFBM,'FLUXDISAFACT',NGRP,2,FLDIS3)
C
C        STORE MACROSCOPIC X-SECTIONS
C
         CALL LCMSIX(IPFBM,'MACR',1)
         CALL LCMSIX(IPFBM,'ABS',1)
         CALL LCMPUT(IPFBM,'REF',NGRP,2,TOTAL(1,I))
         CALL LCMSIX(IPFBM,' ',2)
         IF(IXYZ.EQ.0) THEN
         CALL LCMSIX(IPFBM,'STRD',1)
         CALL LCMPUT(IPFBM,'REF',NGRP,2,DIFFX(1,I))
         CALL LCMSIX(IPFBM,' ',2)
         ELSE IF(IXYZ.EQ.1) THEN
         CALL LCMSIX(IPFBM,'STRD X',1)
         CALL LCMPUT(IPFBM,'REF',NGRP,2,DIFFX(1,I))
         CALL LCMSIX(IPFBM,' ',2)
         CALL LCMSIX(IPFBM,'STRD Y',1)
         CALL LCMPUT(IPFBM,'REF',NGRP,2,DIFFY(1,I))
         CALL LCMSIX(IPFBM,' ',2)
         CALL LCMSIX(IPFBM,'STRD Z',1)
         CALL LCMPUT(IPFBM,'REF',NGRP,2,DIFFZ(1,I))
         CALL LCMSIX(IPFBM,' ',2)
         ENDIF
         IF(JTAB(1).EQ.1) THEN
         CALL LCMSIX(IPFBM,'NUSIGF',1)
         CALL LCMPUT(IPFBM,'REF',NGRP,2,ZNUG(1,I))
         CALL LCMSIX(IPFBM,' ',2)
         CALL LCMSIX(IPFBM,'H-FACTORS',1)
         CALL LCMPUT(IPFBM,'REF',NGRP,2,H(1,I))
         CALL LCMSIX(IPFBM,' ',2)
         CALL LCMPUT(IPFBM,'CHI',NGRP,2,CHI3)
         CALL LCMPUT(IPFBM,'NFTOT',NGRP,2,NF3)
         ENDIF
         CALL LCMSIX(IPFBM,' ',2)
C
C        STORE MICROSCOPIC X-SECTIONS
C
         DO 49 ISO=2,NISO
         IF(DENSIT(ISO).EQ.0.0) GO TO 49
         WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
         CALL LCMSIX(IPFBM,HMICRO,1)
         CALL LCMSIX(IPFBM,'ABS',1)
         CALL LCMPUT(IPFBM,'REF',NGRP,2,TMREF(1,I,ISO))
         CALL LCMSIX(IPFBM,' ',2)
         IF(IXYZ.EQ.0) THEN
           CALL LCMSIX(IPFBM,'STRD',1)
           CALL LCMPUT(IPFBM,'REF',NGRP,2,DMRFX(1,I,ISO))
           CALL LCMSIX(IPFBM,' ',2)
         ELSE IF(IXYZ.EQ.1) THEN
           CALL LCMSIX(IPFBM,'STRD X',1)
           CALL LCMPUT(IPFBM,'REF',NGRP,2,DMRFX(1,I,ISO))
           CALL LCMSIX(IPFBM,' ',2)
           CALL LCMSIX(IPFBM,'STRD Y',1)
           CALL LCMPUT(IPFBM,'REF',NGRP,2,DMRFY(1,I,ISO))
           CALL LCMSIX(IPFBM,' ',2)
           CALL LCMSIX(IPFBM,'STRD Z',1)
           CALL LCMPUT(IPFBM,'REF',NGRP,2,DMRFZ(1,I,ISO))
           CALL LCMSIX(IPFBM,' ',2)
         ENDIF
         IF(JTAB(ISO).EQ.1) THEN
           CALL LCMSIX(IPFBM,'NUSIGF',1)
           CALL LCMPUT(IPFBM,'REF',NGRP,2,FMREF(1,I,ISO))
           CALL LCMSIX(IPFBM,' ',2)
           CALL LCMSIX(IPFBM,'H-FACTORS',1)
           CALL LCMPUT(IPFBM,'REF',NGRP,2,HMREF(1,I,ISO))
           CALL LCMSIX(IPFBM,' ',2)
           CALL LCMPUT(IPFBM,'CHI',NGRP,2,MCHI3)
         ENDIF
         CALL LCMSIX(IPFBM,' ',2)
   49    CONTINUE
         CALL LCMSIX(IPFBM,' ',2)
         CALL LCMSIX(IPFBM,' ',2)
C-----
C     RECOVER MICROSCOPIC CONTRIBUTIONS OF SCATTERING X-SECTIONS.
C-----
      DO 160 ISO=2,NISO
      IF(DENSIT(ISO).EQ.0.0) GO TO 160
      WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
      IF(IP.EQ.1) THEN
         CALL LCMSIX(IPLIST,'REF        1',1)
         ELSE
         CALL LCMSIX(IPLIST,'MODREF     1',1)
         ENDIF
      CALL LCMSIX(IPLIST,TEXTB,1)
      CALL LCMLEN(IPLIST,HMICRO,ILENG,ITYLCM)
      IF(ILENG.NE.0) THEN
      CALL LCMSIX(IPLIST,HMICRO,1)
      CALL LCMGET(IPLIST,'XS-SAVED',IXS)
      CALL LCMGET(IPLIST,'SCAT-SAVED',IXS(21))
C
      IL=1
      WRITE (CM,'(I2.2)') IL-1
      IF(IXS(20+IL).EQ.1) THEN
         CALL LCMGET(IPLIST,'SCAT'//CM,WORK3)
         CALL LCMGET(IPLIST,'NJJS'//CM,NJJ)
         CALL LCMGET(IPLIST,'IJJS'//CM,IJJ)
         IGAR=0
         DO 150 JGR=1,NGRP
         DO 140 IGR=IJJ(JGR),IJJ(JGR)-NJJ(JGR)+1,-1
         IGAR=IGAR+1
         SMREF(ISO,I,IL,IGR,JGR)=WORK3(IGAR)
         SCAT(I,IL,IGR,JGR)=SCAT(I,IL,IGR,JGR)+DENSIT(ISO)*WORK3(IGAR)
  140    CONTINUE
  150    CONTINUE
        ENDIF
C
        CALL LCMSIX(IPLIST,' ',2)
      ENDIF
      CALL LCMSIX(IPLIST,' ',2)
      CALL LCMSIX(IPLIST,' ',2)
  160 CONTINUE
C----------------------------------------------------------------------C
C
C        STORE MACROSCOPIC SCATTERING X-SECTIONS
C
         CALL LCMSIX(IPFBM,TEXTR,1)
         CALL LCMSIX(IPFBM,TEXTB,1)
C
         CALL LCMSIX(IPFBM,'MACR',1)
         IL=1
         WRITE (CM,'(I2)') IL-1
         CALL LCMSIX(IPFBM,'SCAT'//CM,1)
         IGARM=0
         DO 799 JGR=1,NGRP
         IGRMIN=JGR
         IGRMAX=JGR
         DO 899 IGR=1,NGRP
          IF(SCAT(I,IL,IGR,JGR).NE.0.0) THEN
                    IGRMIN=MIN(IGRMIN,IGR)
                    IGRMAX=MAX(IGRMAX,IGR)
          ENDIF
 899     CONTINUE
         MIJ(JGR)=IGRMAX
         MNJ(JGR)=IGRMAX-IGRMIN+1
         DO 795 IGR=MIJ(JGR),MIJ(JGR)-MNJ(JGR)+1,-1
         IGARM=IGARM+1
         WORK3(IGARM)=SCAT(I,IL,IGR,JGR)
  795    CONTINUE
  799   CONTINUE
         CALL LCMPUT(IPFBM,'NJJ',NGRP,1,MNJ)
         CALL LCMPUT(IPFBM,'IJJ',NGRP,1,MIJ)
         CALL LCMPUT(IPFBM,'REF',IGARM,2,WORK3)
         CALL LCMSIX(IPFBM,' ',2)
C
C
         CALL LCMSIX(IPFBM,' ',2)
C
C
C       STORE THE SCATTERING X-SECTIONS
C
         DO 860 ISO=2,NISO
         IF(DENSIT(ISO).EQ.0.0) GO TO 860
         WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
         CALL LCMSIX(IPFBM,HMICRO,1)
         IL=1
         WRITE (CM,'(I2)') IL-1
         CALL LCMSIX(IPFBM,'SCAT'//CM,1)
         IGARM=0
         DO 105 JGR=1,NGRP
         DO 100 IGR=MIJ(JGR),MIJ(JGR)-MNJ(JGR)+1,-1
         IGARM=IGARM+1
         WORK3(IGARM)=SMREF(ISO,I,IL,IGR,JGR)
  100    CONTINUE
  105    CONTINUE
         CALL LCMPUT(IPFBM,'REF',IGARM,2,WORK3)
         CALL LCMPUT(IPFBM,'NJJ',NGRP,1,MNJ)
         CALL LCMPUT(IPFBM,'IJJ',NGRP,1,MIJ)
         CALL LCMSIX(IPFBM,' ',2)
C
         CALL LCMSIX(IPFBM,' ',2)
  860    CONTINUE
         CALL LCMSIX(IPFBM,' ',2)
         CALL LCMSIX(IPFBM,' ',2)
  20     CONTINUE
C
         DEALLOCATE(MCHI3,CHI3,NF3,DIFD3,OV3,FLDIS3,FLUI3)
         WRITE(IOUT,9000)
C----------------------------------------------------------------------C
C                                                                      C
C  FUEL COEFFICIENTS CALCULATIONS                                      C
C                                                                      C
C----------------------------------------------------------------------C
C MIXP =0 : INDIVIDUAL LOCAL PARAMETER                                 C
C MIXP =1 : MIXDED     LOCAL PARAMETER                                 C
C NB   =1 : THE COEFFICIENTS CALCULATION REQUIRE ONE L_COMPO           C
C NB   =2 : THE COEFFICIENTS CALCULATION REQUIRE TWO L_COMPO           C
C TEXT1   : FIRST RECORD ON WHICH THE COEFF. ARE STORED (NB=1)         C
C TEXT2   : SECOND RECORD ON WHICH THE COEFF. ARE STORED (NB=2)        C
C----------------------------------------------------------------------C
C
       IF(IP.EQ.1) THEN
       DO 111 J=1,5
       JJU=2*J+1
       JJD=2*J+2
       IPLISU=KENTRY(JJU)
       IPLISD=KENTRY(JJD)
       IF(ABS(IPRINT) .GT. 5) THEN
         WRITE(IOUT,6000) JJU,HENTRY(JJU),JJD,HENTRY(JJD)
       ENDIF 
       NB=2
       MIXP=0
C-----
C     COMPUTE  FUEL TEMPERATURE COEFFICIENTS (TWO L_COMPO)
C-----
       IF(J.EQ.1) THEN
        TEXT(1)='SIGNATURE'
        CALL LCMNXT(IPLISU,TEXT(1))
        IF(TEXT(1).NE.'FTEMP-UP   1') THEN
        CALL XABORT('CFCDRV: FTEMP-UP COMPO EXPECTED.')
        ENDIF
        TEXT(2)='SIGNATURE'
        CALL LCMNXT(IPLISD,TEXT(2))
        IF(TEXT(2).NE.'FTEMP-D    1') CALL XABORT('CFCDRV: '
     1   //' FTEMP-D COMPO EXPECTED.')
        TEXT1='T1F'
        TEXT2='T2F'
C-----
C     COMPUTE  COOLANT TEMPERATURE COEFFICIENTS (TWO L_COMPO)
C-----
       ELSE IF(J.EQ.2) THEN
       TEXT(1)='SIGNATURE'
       CALL LCMNXT(IPLISU,TEXT(1))
       IF(TEXT(1).NE.'CTEMP-UP   1') THEN
       CALL XABORT('CFCDRV: CTEMP-UP COMPO EXPECTED.')
       ENDIF
       TEXT(2)='SIGNATURE'
       CALL LCMNXT(IPLISD,TEXT(2))
       IF(TEXT(2).NE.'CTEMP-D    1') CALL XABORT('CFCDRV:'
     1  //' CTEMP-D COMPO EXPECTED.')
       TEXT1='T1C'
       TEXT2='T2C'
C-----
C     COMPUTE  MODERATOR TEMPERATURE COEFFICIENTS (TWO L_COMPO)
C-----
      ELSE IF(J.EQ.3) THEN
      TEXT(1)='SIGNATURE'
      CALL LCMNXT(IPLISU,TEXT(1))
      IF(TEXT(1).NE.'MTEMP-UP   1') THEN
      CALL XABORT('CFCDRV: MTEMP-UP COMPO EXPECTED.')
      ENDIF
      TEXT(2)='SIGNATURE'
      CALL LCMNXT(IPLISD,TEXT(2))
      IF(TEXT(2).NE.'MTEMP-D    1') CALL XABORT('CFCDRV:'
     1  //' MTEMP-D COMPO EXPECTED.')
      TEXT1='T1M'
      TEXT2='T2M'
C-----
C      COMPUTE  COOLANT DENSITY COEFFICIENTS (TWO L_COMPO)
C-----
       ELSE IF(J.EQ.4) THEN
       TEXT(1)='SIGNATURE'
       CALL LCMNXT(IPLISU,TEXT(1))
       IF(TEXT(1).NE.'CDEN-UP    1') THEN
       CALL XABORT('CFCDRV: CDEN-UP COMPO EXPECTED.')
       ENDIF
       TEXT(2)='SIGNATURE'
       CALL LCMNXT(IPLISD,TEXT(2))
       IF(TEXT(2).NE.'CDEN-D     1') CALL XABORT('CFCDRV:'
     1 //' CDEN-D COMPO EXPECTED.')
       TEXT1='D1C'
       TEXT2='D2C'
C-----
C     COMPUTE  MODERATOR DENSITY COEFFICIENTS (TWO L_COMPO)
C-----
      ELSE IF(J.EQ.5) THEN
      TEXT(1)='SIGNATURE'
      CALL LCMNXT(IPLISU,TEXT(1))
      IF(TEXT(1).NE.'MDEN-UP    1') THEN
      CALL XABORT('CFCDRV: MDEN-UP COMPO EXPECTED.')
      ENDIF
      TEXT(2)='SIGNATURE'
      CALL LCMNXT(IPLISD,TEXT(2))
      IF(TEXT(2).NE.'MDEN-D     1') CALL XABORT('CFCDRV:'
     1//'  MDEN-D COMPO EXPECTED.')
      TEXT1='D1M'
      TEXT2='D2M'
      ENDIF
C
         CALL CFCFBM(TEXT1,TEXT2,IPLISU,IPLISD,IPFBM,NGRP,NBUM,NISM,
     1   NBURN,NISO,HISO,NL,IPRINT,TOTAL,ZNUG,DIFFX,DIFFY,DIFFZ,
     1   H,SCAT,MIJ,MNJ,TMREF,SMREF,DMRFX,DMRFY,DMRFZ,TOT2,ZN2,DXF2,
     1   DYF2,DZF2,HF2,SCA2,WORK3,REFC,MIRCT2,MIRCS2,MICDX2,MICDY2,
     1   MICDZ2,DELTA,DENSIT,TFR,TCR,TMR,XIR,TEXT,TEXTR,NB,MIRCF2,
     1   MIRCH2,FMREF,HMREF,JTAB,MIXP,V2,EFJ,NXS,IXYZ,NBPARA,DBPARA)
 111   CONTINUE
       WRITE(IOUT,9001)
C----------------------------------------------------------------------C
C                                                                      C
C                                                                      C
C----------------------------------------------------------------------C
       DO 112 J=13,21
       IPLISU=KENTRY(J)
       IPLISD=IPLISU
       NB=1
       MIXP=0
       IF(ABS(IPRINT) .GT. 5) THEN
         WRITE(IOUT,6001) J,HENTRY(J)
       ENDIF 
C-----
C      COMPUTE BORON COEFFICIENTS (ONE L_COMPO)
C-----
       IF(J.EQ.13) THEN
       TEXT(1)='SIGNATURE'
       CALL LCMNXT(IPLISU,TEXT(1))
        IF(TEXT(1).NE.'BORON      1') THEN
        CALL XABORT('CFCDRV: BORON COMPO EXPECTED.')
        ENDIF
       TEXT1='BOR'
       TEXT2='BOR'
       TEXT(2)=TEXT(1)
C-----
C      COMPUTE PURITY COEFFICIENTS (ONE L_COMPO)
C-----
       ELSE IF(J.EQ.14) THEN
       TEXT(1)='SIGNATURE'
       CALL LCMNXT(IPLISU,TEXT(1))
        IF(TEXT(1).NE.'PURITY     1') THEN
        CALL XABORT('CFCDRV: BORON COMPO EXPECTED.')
        ENDIF
       TEXT1='PUR'
       TEXT2='PUR'
       TEXT(2)=TEXT(1)
C-----
C       COMPUTE  XENON COEFFICIENTS (ONE L_COMPO)
C-----
        ELSE IF(J.EQ.15) THEN
        TEXT(1)='SIGNATURE'
        CALL LCMNXT(IPLISU,TEXT(1))
         IF(TEXT(1).NE.'XENON      1') THEN
         CALL XABORT('CFCDRV: XENON COMPO EXPECTED.')
         ENDIF
        TEXT1='XEN'
        TEXT2='XEN'
        TEXT(2)=TEXT(1)
C-----
C      COMPUTE  SAMARIUM COEFFICIENTS (ONE L_COMPO)
C-----
       ELSE IF(J.EQ.16) THEN
       TEXT(1)='SIGNATURE'
       CALL LCMNXT(IPLISU,TEXT(1))
        IF(TEXT(1).NE.'SM149      1') THEN
        CALL XABORT('CFCDRV: SM149 COMPO EXPECTED.')
        ENDIF
       TEXT1='SM149'
       TEXT2='SM149'
       TEXT(2)=TEXT(1)
C-----
C       COMPUTE  NP239 COEFFICIENTS (ONE L_COMPO)
C-----
        ELSE IF(J.EQ.17) THEN
        TEXT(1)='SIGNATURE'
        CALL LCMNXT(IPLISU,TEXT(1))
         IF(TEXT(1).NE.'NP239      1') THEN
         CALL XABORT('CFCDRV: NP239 COMPO EXPECTED.')
         ENDIF
        TEXT1='NP239'
        TEXT2='NP239'
        TEXT(2)=TEXT(1)
C-----
C       COMPUTE MIXED FUEL AND DENSITY COEFFICIENTS (ONE L_COMPO)
C-----
        ELSE IF(J.EQ.18) THEN
        TEXT(1)='SIGNATURE'
        CALL LCMNXT(IPLISU,TEXT(1))
         IF(TEXT(1).NE.'MIXFD      1') THEN
         CALL XABORT('CFCDRV: MIXFD COMPO EXPECTED.')
         ENDIF
         MIXP=1
        TEXT1='MIXFD'
        TEXT2='MIXFD'
        TEXT(2)=TEXT(1)
C-----
C       COMPUTE MIXED COLLANT AND DENSITY COEFFICIENTS (ONE L_COMPO)
C-----
        ELSE IF(J.EQ.19) THEN
        TEXT(1)='SIGNATURE'
        CALL LCMNXT(IPLISU,TEXT(1))
         IF(TEXT(1).NE.'MIXMD      1') THEN
         CALL XABORT('CFCDRV: MIXMD COMPO EXPECTED.')
         ENDIF
         MIXP=1
        TEXT1='MIXMD'
        TEXT2='MIXMD'
        TEXT(2)=TEXT(1)
C-----
C      COMPUTE (HIGH)FISSION ISOTOPES COEFFICIENTS  (TWO L_COMPO)
C-----
      ELSE IF(J.EQ.20) THEN
      TEXT(1)='SIGNATURE'
      CALL LCMNXT(IPLISU,TEXT(1))
       IF(TEXT(1).NE.'POWER-UP   1') THEN
       CALL XABORT('CFCDRV: POWER-UP COMPO EXPECTED.')
       ENDIF
       IPLISD=KENTRY(J+1)
       TEXT(2)='SIGNATURE'
       CALL LCMNXT(IPLISD,TEXT(2))
       IF(TEXT(2).NE.'POWER-IN   1') CALL XABORT('CFCDRV:'
     1  //'  POWER-D COMPO EXPECTED.')
       MIXP=1
       NB=2
       TEXT1='FPCH1'
       TEXT2='FPCH2'
C-----
C     COMPUTE LOW FISSION ISOTOPES COEFFICIENTS (TWO L_COMPO)
C-----
      ELSE IF(J.EQ.21) THEN
      TEXT(1)='SIGNATURE'
      CALL LCMNXT(IPLISU,TEXT(1))
       IF(TEXT(1).NE.'POWER-IN   1') THEN
       CALL XABORT('CFCDRV: POWER-UP COMPO EXPECTED.')
       ENDIF
       IPLISD=KENTRY(J+1)
       TEXT(2)='SIGNATURE'
       CALL LCMNXT(IPLISD,TEXT(2))
       IF(TEXT(2).NE.'POWER-D    1') CALL XABORT('CFCDRV:'
     1  //'  POWER-D COMPO EXPECTED.')
       MIXP=1
       NB=2
       TEXT1='FPCL1'
       TEXT2='FPCL2'
      ENDIF
         IF(ABS(IPRINT) .GT. 5) THEN
           WRITE(IOUT,6002) TEXT1,TEXT2
         ENDIF 
C
         CALL CFCFBM(TEXT1,TEXT2,IPLISU,IPLISD,IPFBM,NGRP,NBUM,NISM,
     1   NBURN,NISO,HISO,NL,IPRINT,TOTAL,ZNUG,DIFFX,DIFFY,DIFFZ,
     1   H,SCAT,MIJ,MNJ,TMREF,SMREF,DMRFX,DMRFY,DMRFZ,TOT2,ZN2,
     1   DXF2, DYF2,DZF2,HF2,SCA2,WORK3,REFC,MIRCT2,MIRCS2,MICDX2,
     1   MICDY2,MICDZ2,DELTA,DENSIT,TFR,TCR,TMR,XIR,TEXT,TEXTR,NB,
     1   MIRCF2,MIRCH2,FMREF,HMREF,JTAB,MIXP,V2,EFJ,NXS,IXYZ,NBPARA,
     1   DBPARA)
 112   CONTINUE
       WRITE(IOUT,9002)
C----------------------------------------------------------------------C
C                                                                      C
C                                                                      C
C----------------------------------------------------------------------C
C-----
C        COMPUTE THE HISTORY CONCENTRATION
C-----
         DO 650 JJ=1,2
         IF(JJ.EQ.1) THEN
          IPHISU=KENTRY(21)
          IPHISD=KENTRY(22)
          TEXT(1)='SIGNATURE'
          CALL LCMNXT(IPHISU,TEXT(1))
          IF(TEXT(1).NE.'POWER-IN   1') THEN
          CALL XABORT('CFCDRV: POWER-IN COMPO EXPECTED.')
          ENDIF
          TEXT(2)='SIGNATURE'
          CALL LCMNXT(IPHISD,TEXT(2))
          IF(TEXT(2).NE.'POWER-D    1') CALL XABORT('CFCDRV:'
     1    //'  POWER-D COMPO EXPECTED.')
          NB=2
C          TEXT1='PHIS1'
C          TEXT2='PHIS2'
          ELSE IF(JJ.EQ.2) THEN
          IPHISU=KENTRY(20)
          IPHISD=KENTRY(21)
          TEXT(1)='SIGNATURE'
          CALL LCMNXT(IPHISU,TEXT(1))
          IF(TEXT(1).NE.'POWER-UP   1') THEN
          CALL XABORT('CFCDRV: POWER-UP COMPO EXPECTED.')
          ENDIF
          TEXT(2)='SIGNATURE'
          CALL LCMNXT(IPHISD,TEXT(2))
          IF(TEXT(2).NE.'POWER-IN   1') CALL XABORT('CFCDRV:'
     1    //'  POWER-D COMPO EXPECTED.')
          NB=2
C          TEXT1='PHIL1'
C          TEXT2='PHIL2'
        ENDIF
C-----
C         STORE THE HISTORY COEFFICIENTS
C-----
         DO 730 JP=1,4
         IF(JP.EQ.1) THEN
           TEXT12='FPC'
             IF(JJ.EQ.1) THEN
               TEXT1='PHIS1'
               TEXT2='PHIS2'
             ELSE
               TEXT1='PHIL1'
               TEXT2='PHIL2'
             ENDIF
         ELSE IF(JP.EQ.2) THEN
           TEXT12='XE135'
             IF(JJ.EQ.1) THEN
               TEXT1='PHISX1'
               TEXT2='PHISX2'
             ELSE
               TEXT1='PHILX1'
               TEXT2='PHILX2'
             ENDIF
         ELSE IF(JP.EQ.3) THEN
           TEXT12='SM149'
              IF(JJ.EQ.1) THEN
               TEXT1='PHISS1'
               TEXT2='PHISS2'
             ELSE
               TEXT1='PHILS1'
               TEXT2='PHILS2'
             ENDIF
         ELSE IF(JP.EQ.4) THEN
           TEXT12='NP239'
             IF(JJ.EQ.1) THEN
               TEXT1='PHISN1'
               TEXT2='PHISN2'
             ELSE
               TEXT1='PHILN1'
               TEXT2='PHILN2'
             ENDIF
         ENDIF
         DO 630 JB=1,NB
            IF(JB.EQ.1) IPHIST=IPHISU
            IF(JB.EQ.2) IPHIST=IPHISD
         CALL LCMSIX(IPHIST,TEXT(JB),1)
         CALL LCMGET(IPHIST,'ISOTOPESNAME',HISO)
         DO 621 I=1,NBURN
         WRITE(TEXTB,'(4HBURN,4X,I4)') I
         CALL LCMSIX(IPHIST,TEXTB,1)
         CALL LCMGET(IPHIST,'ISOTOPESDENS',DENSIT)
         IF(DENSIT(1).NE.1.0) CALL XABORT('FBM: DENSIT(1).NE.1.')
      DO 649 ISO=2,NISO
      WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
      IF(HMICRO.EQ.TEXT12) DELTA(I,JB)=DENSIT(ISO)- REFC(I,ISO)
 649   CONTINUE
      CALL LCMSIX(IPHIST,' ',2)
 621   CONTINUE
      CALL LCMSIX(IPHIST,' ',2)
 630   CONTINUE
       DO 622 I=1,NBURN
        IF(NB.EQ.2) THEN
        PV1U=0.0
        PV2U=0.0
        PV1D=0.0
        PV2D=0.0
        IF(JJ.EQ.1) THEN
         PV1U=PWU-PWR
         PV2U=PV1U*PV1U
         PV1D=PWD-PWR
         PV2D=PV1D*PV1D
        ELSE IF(JJ.EQ.2) THEN
         PV1U=ALOG(PWUL/PWR)
         PV2U=1.0/PWUL - 1.0/PWR
         PV1D=ALOG(PWDL/PWR)
         PV2D=1.0/PWDL - 1.0/PWR
        ENDIF
        TX=PV2U*PV1D - PV2D*PV1U
        DELTA(I,2)=(DELTA(I,1)*PV1D-DELTA(I,2)*PV1U)/TX
        DELTA(I,1)=(DELTA(I,1) - DELTA(I,2)*PV2U)/PV1U
C
       ENDIF
C
         CALL LCMSIX(IPFBM,TEXTR,1)
         WRITE(TEXTB,'(4HBURN,4X,I4)') I
         CALL LCMSIX(IPFBM,TEXTB,1)
         CALL LCMSIX(IPFBM,'HISTORY',1)
         CALL LCMPUT(IPFBM,TEXT1,1,2,DELTA(I,1))
         IF(NB.EQ.2) THEN
         CALL LCMPUT(IPFBM,TEXT2,1,2,DELTA(I,2))
         ENDIF
         CALL LCMSIX(IPFBM,' ',2)
         CALL LCMSIX(IPFBM,' ',2)
         CALL LCMSIX(IPFBM,' ',2)
 622    CONTINUE
 730    CONTINUE
 650    CONTINUE
        WRITE(IOUT,9003)
        ELSE
C----------------------------------------------------------------------C
C                                                                      C
C       MODERATOR CALCULATIONS                                         C
C                                                                      C
C----------------------------------------------------------------------C
       DO 811 J=1,4
       NB=2
       MIXP=0
C-----
C     COMPUTE  MODERATOR TEMPERATURE COEFFICIENTS
C-----
      IF(J.EQ.1) THEN
       IPLISU=KENTRY(24)
       IPLISD=KENTRY(25)
      TEXT(1)='SIGNATURE'
      CALL LCMNXT(IPLISU,TEXT(1))
       IF(TEXT(1).NE.'MODTP-UP   1') THEN
       CALL XABORT('CFCDRV: MTEMP-UP COMPO EXPECTED.')
       ENDIF
      TEXT(2)='SIGNATURE'
      CALL LCMNXT(IPLISD,TEXT(2))
       IF(TEXT(2).NE.'MODTP-D    1') CALL XABORT('CFCDRV:'
     1  //' MTEMP-D COMPO EXPECTED.')
        TEXT1='T1M'
        TEXT2='T2M'
C-----
C     COMPUTE  MODERATOR DENSITY COEFFICIENTS
C-----
      ELSE IF(J.EQ.2) THEN
       IPLISU=KENTRY(26)
       IPLISD=KENTRY(27)
      TEXT(1)='SIGNATURE'
      CALL LCMNXT(IPLISU,TEXT(1))
       IF(TEXT(1).NE.'MODDEN-U   1') THEN
       CALL XABORT('CFCDRV: MDEN-UP COMPO EXPECTED.')
       ENDIF
       TEXT(2)='SIGNATURE'
       CALL LCMNXT(IPLISD,TEXT(2))
       IF(TEXT(2).NE.'MODDEN-D   1') CALL XABORT('CFCDRV:'
     1  //'  MDEN-D COMPO EXPECTED.')
       TEXT1='D1M'
       TEXT2='D2M'
C-----
C     COMPUTE BORON COEFFICIENTS
C-----
      ELSE IF(J.EQ.3) THEN
       NB=1
       MIXP=0
       IPLISU=KENTRY(28)
       TEXT(1)='SIGNATURE'
       CALL LCMNXT(IPLISU,TEXT(1))
        IF(TEXT(1).NE.'MODBOR     1') THEN
        CALL XABORT('CFCDRV: BORON COMPO EXPECTED.')
        ENDIF
       TEXT1='BOR'
       TEXT2='BOR'
       TEXT(2)=TEXT(1)
C-----
C      COMPUTE PURITY COEFFICIENTS
C-----
       ELSE IF(J.EQ.4) THEN
       NB=1
       MIXP=0
       IPLISU=KENTRY(29)
       TEXT(1)='SIGNATURE'
       CALL LCMNXT(IPLISU,TEXT(1))
        IF(TEXT(1).NE.'MODPUR     1') THEN
        CALL XABORT('CFCDRV: BORON COMPO EXPECTED.')
        ENDIF
       TEXT1='PUR'
       TEXT2='PUR'
       TEXT(2)=TEXT(1)
       ENDIF
C
         CALL CFCFBM(TEXT1,TEXT2,IPLISU,IPLISD,IPFBM,NGRP,NBUM,NISM,
     1   NBURN,NISO,HISO,NL,IPRINT,TOTAL,ZNUG,DIFFX,DIFFY,DIFFZ,
     1   H,SCAT,MIJ,MNJ,TMREF,SMREF,DMRFX,DMRFY,DMRFZ,TOT2,ZN2,
     1   DXF2, DYF2,DZF2,HF2,SCA2,WORK3,REFC,MIRCT2,MIRCS2,MICDX2,
     1   MICDY2,MICDZ2,DELTA,DENSIT,TFR,TCR,TMR,XIR,TEXT,TEXTR,NB,
     1   MIRCF2,MIRCH2,FMREF,HMREF,JTAB,MIXP,V2,EFJ,NXS,IXYZ,NBPARA,
     1   DBPARA)
C
 811   CONTINUE
       WRITE(IOUT,9004)
        ENDIF
C-----
C       STORE PARAM INFORMATION
C-----
          CALL LCMSIX(IPFBM,TEXTR,1)
          IPAR(1)=NGRP
          IPAR(2)=NISO
          IPAR(3)=NL
          IPAR(4)=NBURN
          IPAR(5)=IXYZ
          CALL LCMPUT(IPFBM,'PARAM',5,1,IPAR)
          CALL LCMSIX(IPFBM,'     ',2)
 801   CONTINUE
C----------------------------------------------------------------------C
C        RELEASE MEMORY                                                C
C----------------------------------------------------------------------C
         DEALLOCATE(MIRCH2,MIRCF2,V2,MICDZ2,MICDY2,MICDX2,MIRCS2,
     >   MIRCT2,SCA2,HF2,DZF2,DYF2,DXF2,ZN2,TOT2)
*----
*  SCRATCH STORAGE DEALLOCATION
*----
      DEALLOCATE(DELTA,HMREF,FMREF,REFC,DMRFZ,DMRFY,DMRFX,SMREF,TMREF,
     > EFJ,DENSIT,WORK3,SCAT,H,DIFFZ,DIFFY,DIFFX,ZNUG,TOTAL)
      DEALLOCATE(IXS,JTAB,HISO,MNJ,MIJ,NJJ,IJJ)
*
      RETURN
 6000 FORMAT(' CPO ',I4,' for up parameter named   = ',A12/
     >       ' CPO ',I4,' for down parameter named = ',A12)
 6001 FORMAT(' CPO ',I4,' with name ',A12)
 6002 FORMAT(' Records ',2(A8,4X))
 9000 FORMAT(' CELL REFERENCE (NOMINAL) PARAMETER ARE STORED')
 9001 FORMAT(' CELL FEEDBACK COEFFICIENTS CORRESPONDING TO:'/
     >       ' FUEL      TEMPERATURE,'/
     >       ' COOLANT   TEMPERATURE,'/
     >       ' MODERATOR TEMPERATURE,'/
     >       ' COOLANT   DENSITY    ,'/
     >       ' MODERATOR DENSITY    ,')
 9002 FORMAT(' CELL FEEDBACK COEFFICIENTS CORRESPONDING TO:'/
     >       ' BORON      CONCENTRATION,'/
     >       ' MODERATOR  PURITY       ,'/
     >       ' XENON      CONCENTRATION,'/
     >       ' SAMARIUM   CONCENTRATION,'/
     >       ' NEPTUNIUM  CONCENTRATION,'/
     >       ' ************************,'/
     >       ' MIXED FUEL    TEMPERATURE AND COOLANT DENSITY,'/
     >       ' MIXED COOLANT TEMPERATURE AND COOLANT DENSITY,'/
     >       ' *********************************************,'/
     >       ' THE POWER HISTORY,'/)
 9003 FORMAT(' POWER HISTORY COEFFICIENTS FOR THE CONCENTRATION '/
     >       ' ARE STORED')
 9004 FORMAT(' REFLECTOR FEEDBACK COEFFICIENTS CORRESPONDING TO:'/
     >       ' MODERATOR  TEMPERATURE  ,'/
     >       ' MODERATOR  DENSITY      ,'/
     >       ' BORON      CONCENTRATION,'/
     >       ' MODERATOR  PURITY       ,'/)
      END