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*DECK CFCFBM
      SUBROUTINE CFCFBM (TEXT1,TEXT2,IPLISU,IPLISD,IPFBM,NGRP,NBUM,NISM,
     1 NBURN,NISO,HISO,NL,IPRINT,TOTAL,ZNUG,DIFFX,DIFFY,DIFFZ,H,SCAT,
     1 MIJ,MNJ,TMREF,SMREF,DMREFX,DMREFY,DMREFZ,TOTAF,ZNUF,DXF,DYF,DZF,
     1 HF,SCATF,WORK3,REFC,TMICR,SMICR,DMICRX,DMICRY,DMICRZ,DELTA,
     1 DENSIT,TFR,TCR,TMR,XIR,TEXT,TEXTR,NB,FMICR,HMICR,FMREF,HMREF,
     1 JTAB,MIXP,V,EFJ,NXS,IXYZ,NBPARA,DBPARA)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Compute and store FBM coefficients.
*
*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
* IPLISU  address of the Compo object.
* IPLISD  address of the Compo object.
* IPFBM   address of the feedback data dase.
* NISO    1+number of extracted isotopes.
* TEXT1   name of the first feedback coefficient.
* TEXT2   name of the second feedback coefficient.
* TEXTR   name of the record.
* TFR     reference fuel temperature.
* TCR     reference coolant temperature.
* TMR     reference moderator temperature.
* NGRP    number of energy groups.
* NBUM    number of materials.
* NISM    number of isotopes in materials.
* NBURN   number of burnup steps.
* NB      number of feedback coefficient per parameter.
* NL      number of Legendre orders (=1 for isotropic scattering).
* IPRINT  print parameter. Equal to zero for no print.
* HISO    Hollerith name information for extracted isotopes.
* DENSIT  number densities.
* REFC    reference number densities of the parameter.
* TOTAL   reference total macroscopic x-sections.
* ZNUG    reference nu * fission macroscopic x-sections.
* DIFFX   reference X-directed diffusion coefficients.
* DIFFY   reference Y-directed diffusion coefficients.
* DIFFZ   reference Z-directed diffusion coefficients.
* H       reference H-FACTORS (kappa * fission mac. x-sect.).
* SCAT    reference scattering macroscopic x-sections.
* MIJ     I pointer to decompress scattering matrix.
* MNJ     N pointer to decompress scattering matrix.
* TMREF   reference total microscopic x-sections.
* DMREFX  reference mic. X-directed diffusion coefficients.
* DMREFY  reference mic. Y-directed diffusion coefficients.
* DMREFZ  reference mic. Z-directed diffusion coefficients.
* SMREF   reference scattering microscopic x-sections.
* FMREF   reference nu * fission microscopic x-sections.
* HMREF   reference microscopic H-FACTORS.
* TOTAF   feedback total macroscopic x-sections.
* ZNUF    feedback nu * fission macroscopic x-sections.
* DXF     feedback X-directed diffusion coefficients.
* DYF     feedback Y-directed diffusion coefficients.
* DZF     feedback Z-directed diffusion coefficients.
* HF      feedback H-FACTORS (kappa * fission mac. x-sect.).
* SCATF   feedback scattering macroscopic x-sections.
* TMICR   feedback total microscopic x-sections.
* DMICRX  feedback microscipic X-directed diffusion coefficients.
* DMICRY  feedback microscipic Y-directed diffusion coefficients.
* DMICRZ  feedback microscipic Z-directed diffusion coefficients.
* SMICR   feedback scattering microscopic x-sections.
* NBPARA  Number of parameters for FBM.
* DBPARA  Values of parameters for FBM.
*
*Parameters: scratch
* WORK3   undefined.
* DELTA   undefined.
* XIR     undefined.
* TEXT    undefined.
* FMICR   undefined.
* HMICR   undefined.
* JTAB    undefined.
* MIXP    undefined.
* V       undefined.
* EFJ     undefined.
* NXS     undefined.
* IXYZ    undefined.
*
*-----------------------------------------------------------------------
*
      USE GANLIB
*----
*  SUBROUTINE ARGUMENTS
*----
      CHARACTER TEXT1*8,TEXT2*8,TEXT(2)*12,TEXTR*12
      TYPE(C_PTR) IPLISU,IPLISD,IPFBM
      INTEGER NGRP,NBUM,NISM,NBURN,NISO,HISO(3*NISO),NL,IPRINT,
     1 MIJ(NGRP),MNJ(NGRP),NB,JTAB(NISO),MIXP,NXS,IXYZ,NBPARA
      REAL 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),TMREF(NGRP,NBUM,NISO),
     3 SMREF(NISM,NBUM,NL,NGRP,NGRP),DMREFX(NGRP,NBUM,NISO),
     4 DMREFY(NGRP,NBUM,NISO),DMREFZ(NGRP,NBUM,NISO),
     5 TOTAF(NGRP,NBUM,NB),ZNUF(NGRP,NBUM,NB),DXF(NGRP,NBUM,NB),
     6 DYF(NGRP,NBUM,NB),DZF(NGRP,NBUM,NB),HF(NGRP,NBUM,NB),
     7 SCATF(NB,NBUM,NL,NGRP,NGRP),WORK3(NGRP*NGRP),REFC(NBUM,NISO),
     8 TMICR(NGRP,NISM,NBUM,NB),SMICR(NB,NISM,NBUM,NL,NGRP,NGRP),
     9 DMICRX(NGRP,NISM,NBUM,NB),DMICRY(NGRP,NISM,NBUM,NB),
     1 DMICRZ(NGRP,NISM,NBUM,NB),DELTA(NBUM,2),DENSIT(NISO),
     2 TFR,TCR,TMR,XIR,FMICR(NGRP,NISM,NBUM,NB),
     3 HMICR(NGRP,NISM,NBUM,NB),FMREF(NGRP,NBUM,NISO),
     4 HMREF(NGRP,NBUM,NISO),V(NBUM,8,NB),EFJ(NISO),DBPARA(NBPARA)
*----
*  LOCAL PARAMETERS
*----
      TYPE(C_PTR)   IPLIST
      INTEGER       IOUT
      PARAMETER    (IOUT=6)
      CHARACTER HMICRO*12,CM*2,TEXTB*12,TMIX(8)*8,HSMG*131
      LOGICAL LOGI,LOHIS
      INTEGER, ALLOCATABLE, DIMENSION(:) :: IJJ,NJJ,IXS
      SAVE TMIX
*----
*  SCRATCH STORAGE ALLOCATION
*----
      ALLOCATE(IJJ(NGRP),NJJ(NGRP),IXS(NXS))
C-----
C     PARAMETER VALUES ( TEMPERETURES, POWER AND PURITY )
C-----
      TFU=DBPARA(8)
      TCU=DBPARA(9)
      TMU=DBPARA(15)
      TFD=DBPARA(16)
      TCD=DBPARA(17)
      TMD=DBPARA(18)
      PWU=DBPARA(10)
      PWD=DBPARA(13)
      XI=DBPARA(14)
C-----
C     SET ALL THE VARIABLES TO ZERO
C-----
C
C     REAL VARIABLE
C
      DEL=0.0
      PV1U=0.0
      PV2U=0.0
      PV2UB=0.0
      PV1D=0.0
      PV2D=0.0
      PV2DB=0.0
C
      DO 10 III=1,8
        TMIX(III)=' '
   10 CONTINUE
      V(:NBUM,:8,:NB)=0.0
      DELTA(:NBUM,:2)=0.0
      TOTAF(:NGRP,:NBUM,:NB)=0.0
      ZNUF(:NGRP,:NBUM,:NB)=0.0
      HF(:NGRP,:NBUM,:NB)=0.0
      DXF(:NGRP,:NBUM,:NB)=0.0
      DYF(:NGRP,:NBUM,:NB)=0.0
      DZF(:NGRP,:NBUM,:NB)=0.0
      TMICR(:NGRP,:NISO,:NBUM,:NB)=0.0
      FMICR(:NGRP,:NISO,:NBUM,:NB)=0.0
      HMICR(:NGRP,:NISO,:NBUM,:NB)=0.0
      DMICRX(:NGRP,:NISO,:NBUM,:NB)=0.0
      DMICRY(:NGRP,:NISO,:NBUM,:NB)=0.0
      DMICRZ(:NGRP,:NISO,:NBUM,:NB)=0.0
      SCATF(:NB,:NBUM,:NL,:NGRP,:NGRP)=0.0
      SMICR(:NB,:NISO,:NBUM,:NL,:NGRP,:NGRP)=0.0
C
      DO 20 IGR=1,NGRP
        IJJ(IGR)=IGR
        NJJ(IGR)=1
   20 CONTINUE
C
C     LOGICAL VARIABLE
C
      LOHIS=.FALSE.
C
C         INITIAL UNIT NUMBER
C
      IPLIST=IPLISU
C----------------------------------------------------------------------C
C-----
C        RECOVER NEUTRONICS PARAMETRES
C-----
      DO 180 J=1,NB
      IF(J.EQ.2) IPLIST=IPLISD
      CALL LCMSIX(IPLIST,TEXT(J),1)
      CALL LCMGET(IPLIST,'ISOTOPESNAME',HISO)
C
      I=1
      WRITE(TEXTB,'(4HBURN,4X,I4)') I
      CALL LCMSIX(IPLIST,TEXTB,1)
      IXYZF=0
      DO 30 ISO=1,NISO
      WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
      CALL LCMSIX(IPLIST,HMICRO,1)
      CALL LCMGET(IPLIST,'XS-SAVED',IXS)
      CALL LCMGET(IPLIST,'SCAT-SAVED',IXS(21))
      IF(IXS(18).EQ.1) IXYZF=1
      CALL LCMSIX(IPLIST,' ',2)
 30   CONTINUE
      IF(IXYZF.NE.IXYZ) THEN
         WRITE(HSMG,
     >    '(15HXS_SAVED(18) = ,I5,17HREF XS_SAVED(18)=,I5)')
     >      IXS(18),IXYZ
         CALL XABORT('CFCFBM:  INCONSISTENT NB OF FLAGS '
     1   //TEXT(J)//' IS '//HSMG//' ')
      ENDIF
      CALL LCMSIX(IPLIST,' ',2)
C
      DO 170 I=1,NBURN
      WRITE(TEXTB,'(4HBURN,4X,I4)') I
      CALL LCMSIX(IPLIST,TEXTB,1)
      CALL LCMGET(IPLIST,'ISOTOPESDENS',DENSIT)
      CALL LCMGET(IPLIST,'ISOTOPES-EFJ',EFJ)
      IF(DENSIT(1).NE.1.0) CALL XABORT('CFCFBM: DENSIT(1).NE.1.')
C
C        RECOVER FEEDBACK MACROSCOPIC  X-SECTIONS.
C
      CALL LCMSIX(IPLIST,'MACR',1)
      CALL LCMGET(IPLIST,'XS-SAVED',IXS)
      CALL LCMGET(IPLIST,'SCAT-SAVED',IXS(21))
      IF(IXS(1).EQ.1) CALL LCMGET(IPLIST,'TOTAL',TOTAF(1,I,J))
      IF(IXS(3).EQ.1) CALL LCMGET(IPLIST,'NUSIGF',ZNUF(1,I,J))
      IF(IXS(4).EQ.1) THEN
         CALL LCMGET(IPLIST,'NFTOT',HF(1,I,J))
         DO 40 IGR=1,NGRP
         HF(IGR,I,J)=HF(IGR,I,J)*EFJ(1)
  40     CONTINUE
      ENDIF
      IL=1
      WRITE (CM,'(I2.2)') IL-1
      IF(IXS(20+IL).EQ.1) THEN
         CALL LCMGET(IPLIST,'SIGS'//CM,WORK3)
         DO 50 IGR=1,NGRP
         TOTAF(IGR,I,J)= TOTAF(IGR,I,J)-WORK3(IGR)
  50     CONTINUE
      ENDIF
C
      IF(IXS(17).EQ.1) CALL LCMGET(IPLIST,'STRD  ',DXF(1,I,J))
      IF(IXS(18).EQ.1) CALL LCMGET(IPLIST,'STRD X',DXF(1,I,J))
      IF(IXS(19).EQ.1) CALL LCMGET(IPLIST,'STRD Y',DYF(1,I,J))
      IF(IXS(20).EQ.1) CALL LCMGET(IPLIST,'STRD Z',DZF(1,I,J))
C
      CALL LCMSIX(IPLIST,' ',2)
C
C     RECOVER FEEDBACK  DENSITIES.
C
      DO 100 ISO=2,NISO
      WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
      IF(HMICRO.EQ.'BMOD') THEN
        IF(TEXT1.EQ.'BOR') THEN
          DELTA(I,1)=DENSIT(ISO)- REFC(I,ISO)
          DELTA(I,2)=0.0
        ENDIF
      ELSE IF(HMICRO.EQ.'XE135') THEN
       IF(TEXT1.EQ.'XEN') THEN
         DELTA(I,1)=DENSIT(ISO)- REFC(I,ISO)
         DELTA(I,2)=0.0
         IF(I.EQ.1) DELTA(I,1)=0.0
       ELSE IF(TEXT1.EQ.'FPCH1'.OR.TEXT1.EQ.'FPCL1') THEN
         V(I,1,J)=DENSIT(ISO)- REFC(I,ISO)
         TMIX(1)='XEN'
       ENDIF
      ELSE IF(HMICRO.EQ.'SM149') THEN
       IF(TEXT1.EQ.'SM149') THEN
         DELTA(I,1)=DENSIT(ISO)- REFC(I,ISO)
         DELTA(I,2)=0.0
         IF(I.EQ.1) DELTA(I,1)=0.0
       ELSE IF(TEXT1.EQ.'FPCH1'.OR.TEXT1.EQ.'FPCL1') THEN
         V(I,2,J)=DENSIT(ISO)- REFC(I,ISO)
         TMIX(2)='SM149'
       ENDIF
      ELSE IF(HMICRO.EQ.'NP239') THEN
       IF(TEXT1.EQ.'NP239') THEN
         DELTA(I,1)=DENSIT(ISO)- REFC(I,ISO)
         DELTA(I,2)=0.0
         IF(I.EQ.1) DELTA(I,1)=0.0
       ELSE IF(TEXT1.EQ.'FPCH1'.OR.TEXT1.EQ.'FPCL1') THEN
         V(I,3,J)=DENSIT(ISO)- REFC(I,ISO)
         TMIX(3)='NP239'
       ENDIF
      ELSE IF(HMICRO.EQ.'FPC') THEN
         IF(TEXT1.EQ.'FPCH1'.OR.TEXT1.EQ.'FPCL1') THEN
         DELTA(I,J)=DENSIT(ISO)- REFC(I,ISO)
         ENDIF
      ELSE IF(HMICRO.EQ.'CWAT') THEN
        IF(TEXT1.EQ.'D1C') THEN
          IF(J.EQ.1) THEN
          PV1U=DENSIT(ISO)- REFC(I,ISO)
          PV2U=PV1U*PV1U
          PV2UB=PV1U*PV1U
          DELTA(I,J)=PV1U
          ELSE
          PV1D=DENSIT(ISO)- REFC(I,ISO)
          PV2D=PV1D*PV1D
          PV2DB=PV1D*PV1D
          DELTA(I,J)=PV1D
          ENDIF
        ENDIF
        IF(TEXT1.EQ.'MIXFD'.OR.TEXT1.EQ.'MIXMD') THEN
        DELTA(I,1)=DENSIT(ISO)- REFC(I,ISO)
        DELTA(I,2)=0.0
        V(I,1,J)=DENSIT(ISO)- REFC(I,ISO)
        V(I,2,J)=V(I,1,J)*V(I,1,J)
        TMIX(1)='D1C'
        TMIX(2)='D2C'
        ENDIF
      ELSE IF(HMICRO.EQ.'MWAT') THEN
        IF(TEXT1.EQ.'D1M') THEN
          IF(J.EQ.1) THEN
          PV1U=ALOG(DENSIT(ISO)/REFC(I,ISO))
          PV2U=1.0/DENSIT(ISO) - 1.0/REFC(I,ISO)
          PV2UB=DENSIT(ISO)- REFC(I,ISO)
          DELTA(I,J)=PV2UB
        ELSE
          PV1D=ALOG(DENSIT(ISO)/REFC(I,ISO))
          PV2D=1.0/DENSIT(ISO) - 1.0/REFC(I,ISO)
          PV2DB=DENSIT(ISO)- REFC(I,ISO)
          DELTA(I,J)=PV2DB
          ENDIF
        ELSE IF(TEXT1.EQ.'PUR') THEN
          DELTA(I,1)=(XI-XIR)*REFC(I,ISO)
          DELTA(I,2)=0.0
        ENDIF
      ENDIF
C
C     RECOVER FEEDBACK MICROSCOPIC  X-SECTIONS.
C
      CALL LCMSIX(IPLIST,HMICRO,1)
      CALL LCMGET(IPLIST,'XS-SAVED',IXS)
      CALL LCMGET(IPLIST,'SCAT-SAVED',IXS(21))
      IF(IXS(1).EQ.1) CALL LCMGET(IPLIST,'TOTAL',TMICR(1,ISO,I,J))
      IF(IXS(3).EQ.1) CALL LCMGET(IPLIST,'NUSIGF',FMICR(1,ISO,I,J))
      IF(IXS(4).EQ.1) THEN
        CALL LCMGET(IPLIST,'NFTOT',HMICR(1,ISO,I,J))
        DO 60 IGR=1,NGRP
        HMICR(IGR,ISO,I,J)=HMICR(IGR,ISO,I,J)*EFJ(ISO)
   60   CONTINUE
      ENDIF
      IL=1
      WRITE (CM,'(I2.2)') IL-1
      IF(IXS(20+IL).EQ.1) THEN
        CALL LCMGET(IPLIST,'SIGS'//CM,WORK3)
        DO 70 IGR=1,NGRP
        TMICR(IGR,ISO,I,J)= TMICR(IGR,ISO,I,J)-WORK3(IGR)
   70   CONTINUE
      ENDIF
C
      IF(IXS(17).EQ.1) CALL LCMGET(IPLIST,'STRD  ',DMICRX(1,ISO,I,J))
      IF(IXS(18).EQ.1) CALL LCMGET(IPLIST,'STRD X',DMICRX(1,ISO,I,J))
      IF(IXS(19).EQ.1) CALL LCMGET(IPLIST,'STRD Y',DMICRY(1,ISO,I,J))
      IF(IXS(20).EQ.1) CALL LCMGET(IPLIST,'STRD Z',DMICRZ(1,ISO,I,J))
C
C     ADD THE CONTRIBUTION OF MIC. X-SECT. IN MAC. X-S
C
      DO 80 IGR=1,NGRP
       TOTAF(IGR,I,J)=TOTAF(IGR,I,J)+DENSIT(ISO)*TMICR(IGR,ISO,I,J)
       DXF(IGR,I,J) =DXF(IGR,I,J)  +DENSIT(ISO)*DMICRX(IGR,ISO,I,J)
       DYF(IGR,I,J) =DYF(IGR,I,J)  +DENSIT(ISO)*DMICRY(IGR,ISO,I,J)
       DZF(IGR,I,J) =DZF(IGR,I,J)  +DENSIT(ISO)*DMICRZ(IGR,ISO,I,J)
   80 CONTINUE
      IF(JTAB(ISO).EQ.1) THEN
       DO 90 IGR=1,NGRP
       ZNUF(IGR,I,J)=ZNUF(IGR,I,J)+DENSIT(ISO)*FMICR(IGR,ISO,I,J)
       HF(IGR,I,J)  =HF(IGR,I,J)  +DENSIT(ISO)*HMICR(IGR,ISO,I,J)
   90 CONTINUE
      ENDIF
      CALL LCMSIX(IPLIST,' ',2)
  100 CONTINUE
C
C     RECOVER MACROSCOPIC  SCATTERING X-SECTIONS.
C
      CALL LCMSIX(IPLIST,'MACR',1)
      CALL LCMGET(IPLIST,'XS-SAVED',IXS)
      CALL LCMGET(IPLIST,'SCAT-SAVED',IXS(21))
      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 120 JGR=1,NGRP
         DO 110 IGR=IJJ(JGR),IJJ(JGR)-NJJ(JGR)+1,-1
         IGAR=IGAR+1
         SCATF(J,I,IL,IGR,JGR)=WORK3(IGAR)
  110    CONTINUE
  120    CONTINUE
      ENDIF
C
      CALL LCMSIX(IPLIST,' ',2)
C
C     RECOVER MICROSCOPIC CONTRIBUTIONS OF SCATTERING X-SECTIONS.
C
      DO 160 ISO=2,NISO
      WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
      CALL LCMSIX(IPLIST,HMICRO,1)
      CALL LCMGET(IPLIST,'XS-SAVED',IXS)
      CALL LCMGET(IPLIST,'SCAT-SAVED',IXS(21))
      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 140 JGR=1,NGRP
         DO 130 IGR=IJJ(JGR),IJJ(JGR)-NJJ(JGR)+1,-1
         IGAR=IGAR+1
         SMICR(J,ISO,I,IL,IGR,JGR)=WORK3(IGAR)
         SCATF(J,I,IL,IGR,JGR)=SCATF(J,I,IL,IGR,JGR)+
     1   DENSIT(ISO)*WORK3(IGAR)
  130    CONTINUE
  140    CONTINUE
      ENDIF
      CALL LCMSIX(IPLIST,' ',2)
  160 CONTINUE
C      GOING UP FOR BURN
      CALL LCMSIX(IPLIST,' ',2)
  170 CONTINUE
      CALL LCMSIX(IPLIST,' ',2)
  180 CONTINUE
C----------------------------------------------------------------------C
C                                                                      C
C      BEGIN THE COEFFICIENTS CALCULATION                              C
C                                                                      C
C----------------------------------------------------------------------C
       DT=0.0
       IF(TEXT1.EQ.'T1F') THEN
       PV1U=SQRT(TFU)-SQRT(TFR)
       PV2U=TFU-TFR
       PV2UB=PV2U
       PV1D=SQRT(TFD)-SQRT(TFR)
       PV2D=TFD-TFR
       PV2DB=PV2D
       ELSE IF(TEXT1.EQ.'T1C') THEN
       PV1U=ALOG(TCU/TCR)
       PV2U=1.0/TCU - 1.0/TCR
       PV2UB=PV2U
       PV1D=ALOG(TCD/TCR)
       PV2D=1.0/TCD - 1.0/TCR
       PV2DB=PV2D
       ELSE IF(TEXT1.EQ.'T1M') THEN
       PV1U=ALOG(TMU/TMR)
       PV2U=1.0/TMU - 1.0/TMR
       PV2UB=PV2U
       PV1D=ALOG(TMD/TMR)
       PV2D=1.0/TMD - 1.0/TMR
       PV2DB=PV2D
       ELSE IF(TEXT1.EQ.'MIXMD') THEN
       DT=ALOG(TCU/TCR)
       DO 190 I=1,NBURN
       V(I,3,1)=ALOG(TCU/TCR)
       V(I,4,1)=1.0/TCU - 1.0/TCR
  190  CONTINUE
       TMIX(1)='D1C'
       TMIX(2)='D2C'
       TMIX(3)='T1C'
       TMIX(4)='T2C'
       ELSE IF(TEXT1.EQ.'MIXFD') THEN
       DT=SQRT(TFU)-SQRT(TFR)
       DO 200 I=1,NBURN
       V(I,3,1)=SQRT(TFU)-SQRT(TFR)
       V(I,4,1)=TFU-TFR
  200  CONTINUE
       TMIX(1)='D1C'
       TMIX(2)='D2C'
       TMIX(3)='T1F'
       TMIX(4)='T2F'
       ENDIF
C
C----------------------------------------------------------------------C
C
C      COMPUTE DELTA SIGMA
C
       DO 290 I=1,NBURN
       DO 280 J=1,NB
       DO 240 IGR=1,NGRP
       TOTAF(IGR,I,J)=TOTAF(IGR,I,J)-TOTAL(IGR,I)
        DXF(IGR,I,J)=DXF(IGR,I,J)-DIFFX(IGR,I)
        DYF(IGR,I,J)=DYF(IGR,I,J)-DIFFY(IGR,I)
        DZF(IGR,I,J)=DZF(IGR,I,J)-DIFFZ(IGR,I)
       ZNUF(IGR,I,J)=ZNUF(IGR,I,J)-ZNUG(IGR,I)
       HF(IGR,I,J)=HF(IGR,I,J)-H(IGR,I)
       DO 210 ISO=2,NISO
        TMICR(IGR,ISO,I,J) =TMICR(IGR,ISO,I,J) - TMREF(IGR,I,ISO)
        DMICRX(IGR,ISO,I,J)=DMICRX(IGR,ISO,I,J)- DMREFX(IGR,I,ISO)
        DMICRY(IGR,ISO,I,J)=DMICRY(IGR,ISO,I,J)- DMREFY(IGR,I,ISO)
        DMICRZ(IGR,ISO,I,J)=DMICRZ(IGR,ISO,I,J)- DMREFZ(IGR,I,ISO)
       IF(JTAB(ISO).EQ.1) THEN
       FMICR(IGR,ISO,I,J)=FMICR(IGR,ISO,I,J)- FMREF(IGR,I,ISO)
       HMICR(IGR,ISO,I,J)=HMICR(IGR,ISO,I,J)- HMREF(IGR,I,ISO)
       ENDIF
 210   CONTINUE
       IL=1
       DO 230 JGR=1,NGRP
       SCATF(J,I,IL,IGR,JGR)=SCATF(J,I,IL,IGR,JGR)-
     1 SCAT(I,IL,IGR,JGR)
       DO 220 ISO=2,NISO
       SMICR(J,ISO,I,IL,IGR,JGR)=SMICR(J,ISO,I,IL,IGR,JGR)-
     1  SMREF(ISO,I,IL,IGR,JGR)
 220   CONTINUE
 230   CONTINUE
 240   CONTINUE
C
C       CORRECTION OF MACRO. X-SECTIONS
C
        LOGI=.FALSE.
        DO 270 ISO=2,NISO
        WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
        IF(HMICRO.EQ.'BMOD'.AND.TEXT1.EQ.'BOR') THEN
        LOGI =.TRUE.
        DELC=DELTA(I,J)
        ELSE IF(HMICRO.EQ.'XE135'.AND.TEXT1.EQ.'XEN') THEN
        LOGI =.TRUE.
        DELC=DELTA(I,J)
        ELSE IF(HMICRO.EQ.'SM149'.AND.TEXT1.EQ.'SM149') THEN
        LOGI =.TRUE.
        DELC=DELTA(I,J)
        ELSE IF(HMICRO.EQ.'NP239'.AND.TEXT1.EQ.'NP239') THEN
        LOGI =.TRUE.
        DELC=DELTA(I,J)
        ELSE IF(HMICRO.EQ.'CWAT'.AND.TEXT1.EQ.'D1C') THEN
        LOGI =.TRUE.
        DELC=DELTA(I,J)
        ELSE IF(HMICRO.EQ.'MWAT'.AND.TEXT1.EQ.'D1M') THEN
        LOGI =.TRUE.
        DELC=DELTA(I,J)
        ELSE IF(HMICRO.EQ.'CWAT'.AND.TEXT1.EQ.'MIXFD') THEN
        LOGI =.TRUE.
        DELC=DELTA(I,J)
        ELSE IF(HMICRO.EQ.'CWAT'.AND.TEXT1.EQ.'MIXMD') THEN
        LOGI =.TRUE.
        DELC=DELTA(I,J)
        ELSE IF(HMICRO.EQ.'XE135'.AND.TEXT1.EQ.'FPCH1') THEN
        LOGI =.TRUE.
        DELC=V(I,1,J)
        ELSE IF(HMICRO.EQ.'XE135'.AND.TEXT1.EQ.'FPCL1') THEN
        LOGI =.TRUE.
        DELC=V(I,1,J)
        ELSE IF(HMICRO.EQ.'SM149'.AND.TEXT1.EQ.'FPCH1') THEN
        LOGI =.TRUE.
        DELC=V(I,2,J)
        ELSE IF(HMICRO.EQ.'SM149'.AND.TEXT1.EQ.'FPCL1') THEN
        LOGI =.TRUE.
        DELC=V(I,2,J)
        ELSE IF(HMICRO.EQ.'NP239'.AND.TEXT1.EQ.'FPCH1') THEN
        LOGI =.TRUE.
        DELC=V(I,3,J)
        ELSE IF(HMICRO.EQ.'NP239'.AND.TEXT1.EQ.'FPCL1') THEN
        LOGI =.TRUE.
        DELC=V(I,3,J)
        ELSE IF(HMICRO.EQ.'FPC'.AND.TEXT1.EQ.'FPCH1') THEN
        LOGI =.TRUE.
        DELC=DELTA(I,J)
        ELSE IF(HMICRO.EQ.'FPC'.AND.TEXT1.EQ.'FPCL1') THEN
        LOGI =.TRUE.
        DELC=DELTA(I,J)
        ENDIF
C
        IF(LOGI) THEN
        DO 260 IGR=1,NGRP
        TOTAF(IGR,I,J)=TOTAF(IGR,I,J)-TMICR(IGR,ISO,I,J)*DELC
         DXF(IGR,I,J)=DXF(IGR,I,J)-DMICRX(IGR,ISO,I,J)*DELC
         DYF(IGR,I,J)=DYF(IGR,I,J)-DMICRY(IGR,ISO,I,J)*DELC
         DZF(IGR,I,J)=DZF(IGR,I,J)-DMICRZ(IGR,ISO,I,J)*DELC
        IF(JTAB(ISO).EQ.1) THEN
        ZNUF(IGR,I,J)= ZNUF(IGR,I,J)-FMICR(IGR,ISO,I,J)*DELC
        HF(IGR,I,J)=HF(IGR,I,J)-HMICR(IGR,ISO,I,J)*DELC
        ENDIF
        IL=1
        DO 250 JGR=1,NGRP
        SCATF(J,I,IL,IGR,JGR)=SCATF(J,I,IL,IGR,JGR)-
     1  SMICR(J,ISO,I,IL,IGR,JGR)*DELC
 250   CONTINUE
 260   CONTINUE
        ENDIF
       LOGI=.FALSE.
 270   CONTINUE
 280   CONTINUE
 290   CONTINUE
C----------------------------------------------------------------------C
C     'MIXMD' AND 'MIXFD'
C     TAKE OFF THE INDIVIDUAL VARIATION CONTRIBUTION OF:
C     FUEL     TEMPERATURE
C     COOLANT  TEMPERATURE
C     COOLANT  DENSITY
C----------------------------
C     'FPCH1' AND 'FPCL1'
C     XENON     CONCENTRATION
C     SAMARIUM  CONCENTRATION
C     NEPTUNIUM CONCENTRATION
C
       IF(MIXP.EQ.1) THEN
       IF(TEXT1.EQ.'MIXMD'.OR.TEXT1.EQ.'MIXFD') NCOR=4
       IF(TEXT1.EQ.'FPCH1'.OR.TEXT1.EQ.'FPCL1') NCOR=3
       IF(ABS(IPRINT) .GT. 5) THEN
         WRITE(IOUT,6000) TEXT1,NCOR,(TMIX(II),II=1,NCOR)
       ENDIF 
       CALL LCMSIX(IPFBM,TEXTR,1)
       DO 820 I=1,NBURN
        WRITE(TEXTB,'(4HBURN,4X,I4)') I
         CALL LCMSIX(IPFBM,TEXTB,1)
         CALL LCMSIX(IPFBM,'MACR',1)
         CALL LCMSIX(IPFBM,'ABS',1)
         DO 320 II=1,NCOR
         DO 310 J=1,NB
         CALL LCMGET(IPFBM,TMIX(II),WORK3)
         DO 300 IGR=1,NGRP
         TOTAF(IGR,I,J)= TOTAF(IGR,I,J)-WORK3(IGR)*V(I,II,J)
 300     CONTINUE
 310   CONTINUE
 320   CONTINUE
       CALL LCMSIX(IPFBM,' ',2)
C
       IF(IXYZ.EQ.0) THEN
       CALL LCMSIX(IPFBM,'STRD  ',1)
       DO 350 II=1,NCOR
       DO 340 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
        DO 330 IGR=1,NGRP
        DXF(IGR,I,J)=  DXF(IGR,I,J)-WORK3(IGR)*V(I,II,J)
 330    CONTINUE
 340   CONTINUE
 350   CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
      ELSE IF(IXYZ.EQ.1) THEN
      CALL LCMSIX(IPFBM,'STRD X',1)
      DO 380 II=1,NCOR
      DO 370 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 360 IGR=1,NGRP
       DXF(IGR,I,J)=  DXF(IGR,I,J)-WORK3(IGR)*V(I,II,J)
 360   CONTINUE
 370  CONTINUE
 380  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
      CALL LCMSIX(IPFBM,'STRD Y',1)
      DO 410 II=1,NCOR
      DO 400 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 390 IGR=1,NGRP
       DYF(IGR,I,J)=  DYF(IGR,I,J)-WORK3(IGR)*V(I,II,J)
 390   CONTINUE
 400  CONTINUE
 410  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
      CALL LCMSIX(IPFBM,'STRD Z',1)
      DO 440 II=1,NCOR
      DO 430 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 420 IGR=1,NGRP
       DZF(IGR,I,J)=  DZF(IGR,I,J)-WORK3(IGR)*V(I,II,J)
 420   CONTINUE
 430  CONTINUE
 440  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
      ENDIF
C
      IF(JTAB(1).EQ.1) THEN
      CALL LCMSIX(IPFBM,'NUSIGF',1)
      DO 470 II=1,NCOR
      DO 460 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 450 IGR=1,NGRP
       ZNUF(IGR,I,J)= ZNUF(IGR,I,J)-WORK3(IGR)*V(I,II,J)
 450   CONTINUE
 460  CONTINUE
 470  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
      CALL LCMSIX(IPFBM,'H-FACTORS',1)
      DO 500 II=1,NCOR
      DO 490 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 480 IGR=1,NGRP
       HF(IGR,I,J)= HF(IGR,I,J)-WORK3(IGR)*V(I,II,J)
 480   CONTINUE
 490  CONTINUE
 500  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
      ENDIF
C
      IL=1
      WRITE (CM,'(I2)') IL-1
      CALL LCMSIX(IPFBM,'SCAT'//CM,1)
      CALL LCMGET(IPFBM,'NJJ',NJJ)
      CALL LCMGET(IPFBM,'IJJ',IJJ)
      DO 540 II=1,NCOR
      DO 530 J=1,NB
        CALL LCMGET(IPFBM,TMIX(II),WORK3)
        IGAR=0
        DO 520 JGR=1,NGRP
        DO 510 IGR=IJJ(JGR),IJJ(JGR)-NJJ(JGR)+1,-1
          IGAR=IGAR+1
          SCATF(J,I,IL,IGR,JGR)=SCATF(J,I,IL,IGR,JGR)-
     1    WORK3(IGAR)*V(I,II,J)
 510    CONTINUE
 520    CONTINUE
 530  CONTINUE
 540  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
C      GO UP FOR MACR
       CALL LCMSIX(IPFBM,' ',2)
C
C     MICROSCOPIC X-SECTION CORRECTION
C
      DO 810 ISO=2,NISO
      WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
      CALL LCMSIX(IPFBM,HMICRO,1)
C
      CALL LCMSIX(IPFBM,'ABS',1)
      DO 580 II=1,NCOR
      DO 570 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 560 IGR=1,NGRP
       TMICR(IGR,ISO,I,J)=TMICR(IGR,ISO,I,J)-WORK3(IGR)*V(I,II,J)
 560   CONTINUE
 570  CONTINUE
 580  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
      IF(IXYZ.EQ.0) THEN
      CALL LCMSIX(IPFBM,'STRD  ',1)
      DO 610 II=1,NCOR
      DO 600 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 590 IGR=1,NGRP
       DMICRX(IGR,ISO,I,J)=DMICRX(IGR,ISO,I,J)-WORK3(IGR)*V(I,II,J)
 590   CONTINUE
 600  CONTINUE
 610  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
      ELSE IF(IXYZ.EQ.1) THEN
      CALL LCMSIX(IPFBM,'STRD X',1)
      DO 640 II=1,NCOR
      DO 630 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 620 IGR=1,NGRP
       DMICRX(IGR,ISO,I,J)=DMICRX(IGR,ISO,I,J)-WORK3(IGR)*V(I,II,J)
 620   CONTINUE
 630  CONTINUE
 640  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
      CALL LCMSIX(IPFBM,'STRD Y',1)
      DO 670 II=1,NCOR
      DO 660 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 650 IGR=1,NGRP
       DMICRY(IGR,ISO,I,J)=DMICRY(IGR,ISO,I,J)-WORK3(IGR)*V(I,II,J)
 650   CONTINUE
 660  CONTINUE
 670  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
      CALL LCMSIX(IPFBM,'STRD Z',1)
      DO 700 II=1,NCOR
      DO 690 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 680 IGR=1,NGRP
       DMICRZ(IGR,ISO,I,J)=DMICRZ(IGR,ISO,I,J)-WORK3(IGR)*V(I,II,J)
 680   CONTINUE
 690  CONTINUE
 700  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
      ENDIF
C
      IF(JTAB(ISO).EQ.1) THEN
      CALL LCMSIX(IPFBM,'NUSIGF',1)
      DO 730 II=1,NCOR
      DO 720 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 710 IGR=1,NGRP
       FMICR(IGR,ISO,I,J)=FMICR(IGR,ISO,I,J)-WORK3(IGR)*V(I,II,J)
 710   CONTINUE
 720  CONTINUE
 730  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
      CALL LCMSIX(IPFBM,'H-FACTORS',1)
      DO 760 II=1,NCOR
      DO 750 J=1,NB
       CALL LCMGET(IPFBM,TMIX(II),WORK3)
       DO 740 IGR=1,NGRP
       HMICR(IGR,ISO,I,J)= HMICR(IGR,ISO,I,J)-WORK3(IGR)*V(I,II,J)
 740   CONTINUE
 750  CONTINUE
 760  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
      ENDIF
C
      IL=1
      WRITE (CM,'(I2)') IL-1
      CALL LCMSIX(IPFBM,'SCAT'//CM,1)
      DO 800 II=1,NCOR
      DO 790 J=1,NB
      CALL LCMGET(IPFBM,TMIX(II),WORK3)
      IGAR=0
       DO 780 JGR=1,NGRP
       DO 770 IGR=MIJ(JGR),MIJ(JGR)-MNJ(JGR)+1,-1
       IGAR=IGAR+1
       SMICR(J,ISO,I,IL,IGR,JGR)=SMICR(J,ISO,I,IL,IGR,JGR)-
     1 WORK3(IGAR)*V(I,II,J)
 770   CONTINUE
 780   CONTINUE
 790  CONTINUE
 800  CONTINUE
      CALL LCMSIX(IPFBM,' ',2)
C
      CALL LCMSIX(IPFBM,' ',2)
 810  CONTINUE
C     GO UP FOR BURNUP
       CALL LCMSIX(IPFBM,' ',2)
 820   CONTINUE
       CALL LCMSIX(IPFBM,' ',2)
      ENDIF
C
C      END OF INDIVIDUAL CORRECTION
C----------------------------------------------------------------------C
C-----
C     INVERT THE FEEDBACK FORMULAS
C-----
      DO 945 I=1,NBURN
      DO 940 IGR=1,NGRP
      IF(NB.EQ.1) THEN
C
C      ONLY ONE COEFFICIENT IS REQUIRED (NB=1) FOR:
C      BORON CONCENTRATION
C      XENON CONCENTRATION
C      SAMARIUM CONCENTRATION
C      NEPTUNIUM CONCENTRATION
C      MODERATOR PURITY
C
       IF(TEXT1.EQ.'MIXMD'.AND.IGR.EQ.1) DELTA(I,1)=DELTA(I,1)*DT
       IF(TEXT1.EQ.'MIXFD'.AND.IGR.EQ.1) DELTA(I,1)=DELTA(I,1)*DT
        IF(DELTA(I,1).NE.0.0) THEN
        TOTAF(IGR,I,1)=TOTAF(IGR,I,1)/DELTA(I,1)
         DXF(IGR,I,1)=DXF(IGR,I,1)/DELTA(I,1)
         DYF(IGR,I,1)=DYF(IGR,I,1)/DELTA(I,1)
         DZF(IGR,I,1)=DZF(IGR,I,1)/DELTA(I,1)
        ZNUF(IGR,I,1)=ZNUF(IGR,I,1)/DELTA(I,1)
        HF(IGR,I,1)=HF(IGR,I,1)/DELTA(I,1)
        DO 830 ISO=2,NISO
        TMICR(IGR,ISO,I,1)=TMICR(IGR,ISO,I,1)/DELTA(I,1)
         DMICRX(IGR,ISO,I,1)=DMICRX(IGR,ISO,I,1)/DELTA(I,1)
         DMICRY(IGR,ISO,I,1)=DMICRY(IGR,ISO,I,1)/DELTA(I,1)
         DMICRZ(IGR,ISO,I,1)=DMICRZ(IGR,ISO,I,1)/DELTA(I,1)
         IF(JTAB(ISO).EQ.1) THEN
         FMICR(IGR,ISO,I,1)=FMICR(IGR,ISO,I,1)/DELTA(I,1)
         HMICR(IGR,ISO,I,1)=HMICR(IGR,ISO,I,1)/DELTA(I,1)
         ENDIF
 830    CONTINUE
        IL=1
        DO 850 JGR=1,NGRP
        SCATF(1,I,IL,IGR,JGR)=SCATF(1,I,IL,IGR,JGR)/DELTA(I,1)
        DO 840 ISO=2,NISO
       SMICR(1,ISO,I,IL,IGR,JGR)=SMICR(1,ISO,I,IL,IGR,JGR)/DELTA(I,1)
 840    CONTINUE
 850    CONTINUE
        ELSE
         TOTAF(IGR,I,1)=0.0
         DXF(IGR,I,1) =0.0
         DYF(IGR,I,1) =0.0
         DZF(IGR,I,1) =0.0
C
        ZNUF(IGR,I,1) =0.0
        HF(IGR,I,1)  =0.0
        DO 860 ISO=2,NISO
         TMICR(IGR,ISO,I,1) =0.0
         DMICRX(IGR,ISO,I,1)=0.0
         DMICRY(IGR,ISO,I,1)=0.0
         DMICRZ(IGR,ISO,I,1)=0.0
         IF(JTAB(ISO).EQ.1) THEN
           FMICR(IGR,ISO,I,1)=0.0
           HMICR(IGR,ISO,I,1)=0.0
         ENDIF
 860    CONTINUE
        DO 872 IL=1,NL
        DO 871 JGR=1,NGRP
        SCATF(1,I,IL,IGR,JGR)=0.0
        DO 870 ISO=2,NISO
        SMICR(1,ISO,I,IL,IGR,JGR)=0.0
 870    CONTINUE
 871    CONTINUE
 872    CONTINUE
        ENDIF
C
       ELSE IF(NB.EQ.2) THEN
C
C      INVERT THE FEEDBACK FORMULAS
C      TWO FBM COEFFICIENTS ARE COMPUTED
C      TEMPERATURES
C      DENSITIES
C      POWER LEVEL
C
          IF(TEXT1.EQ.'FPCH1'.OR.TEXT1.EQ.'FPCL1') THEN
          PV1U=DELTA(I,1)
          PV2U=PV1U*PV1U
          PV2UB=PV2U
          PV1D=DELTA(I,2)
          PV2D=PV1D*PV1D
          PV2DB=PV2D
          ENDIF
C
       TX=PV2U*PV1D - PV2D*PV1U
       TXB=PV2UB*PV1D - PV2DB*PV1U
C
       IF(TX.NE.0.0.AND.TXB.NE.0.0) THEN
       TOTAF(IGR,I,2)=(TOTAF(IGR,I,1)*PV1D-TOTAF(IGR,I,2)*PV1U)/TX
       TOTAF(IGR,I,1)=(TOTAF(IGR,I,1) - TOTAF(IGR,I,2)*PV2U)/PV1U
C
       DXF(IGR,I,2)=(DXF(IGR,I,1)*PV1D -DXF(IGR,I,2)*PV1U)/TXB
       DXF(IGR,I,1)=(DXF(IGR,I,1) - DXF(IGR,I,2)*PV2UB)/PV1U
       DYF(IGR,I,2)=(DYF(IGR,I,1)*PV1D -DYF(IGR,I,2)*PV1U)/TXB
       DYF(IGR,I,1)=(DYF(IGR,I,1) - DYF(IGR,I,2)*PV2UB)/PV1U
       DZF(IGR,I,2)=(DZF(IGR,I,1)*PV1D -DZF(IGR,I,2)*PV1U)/TXB
       DZF(IGR,I,1)=(DZF(IGR,I,1) - DZF(IGR,I,2)*PV2UB)/PV1U
C
       ZNUF(IGR,I,2)=(ZNUF(IGR,I,1)*PV1D - ZNUF(IGR,I,2)*PV1U)/TX
       ZNUF(IGR,I,1)=(ZNUF(IGR,I,1) - ZNUF(IGR,I,2)*PV2U)/PV1U
C
       HF(IGR,I,2)=(HF(IGR,I,1)*PV1D - HF(IGR,I,2)*PV1U)/TX
       HF(IGR,I,1)=(HF(IGR,I,1) - HF(IGR,I,2)*PV2U)/PV1U
C
       DO 880 ISO=2,NISO
       TMICR(IGR,ISO,I,2)=(TMICR(IGR,ISO,I,1)*PV1D -
     1 TMICR(IGR,ISO,I,2)*PV1U)/TX
       TMICR(IGR,ISO,I,1)=(TMICR(IGR,ISO,I,1) -
     1 TMICR(IGR,ISO,I,2)*PV2U)/PV1U
C
       DMICRX(IGR,ISO,I,2)=(DMICRX(IGR,ISO,I,1)*PV1D -
     1 DMICRX(IGR,ISO,I,2)*PV1U)/TX
       DMICRX(IGR,ISO,I,1)=(DMICRX(IGR,ISO,I,1) -
     1 DMICRX(IGR,ISO,I,2)*PV2U)/PV1U
       DMICRY(IGR,ISO,I,2)=(DMICRY(IGR,ISO,I,1)*PV1D -
     1 DMICRY(IGR,ISO,I,2)*PV1U)/TX
       DMICRY(IGR,ISO,I,1)=(DMICRY(IGR,ISO,I,1) -
     1 DMICRY(IGR,ISO,I,2)*PV2U)/PV1U
       DMICRZ(IGR,ISO,I,2)=(DMICRZ(IGR,ISO,I,1)*PV1D -
     1 DMICRZ(IGR,ISO,I,2)*PV1U)/TX
       DMICRZ(IGR,ISO,I,1)=(DMICRZ(IGR,ISO,I,1) -
     1 DMICRZ(IGR,ISO,I,2)*PV2U)/PV1U
C
        IF(JTAB(ISO).EQ.1) THEN
        FMICR(IGR,ISO,I,2)=(FMICR(IGR,ISO,I,1)*PV1D -
     1  FMICR(IGR,ISO,I,2)*PV1U)/TX
        FMICR(IGR,ISO,I,1)=(FMICR(IGR,ISO,I,1) -
     1  FMICR(IGR,ISO,I,2)*PV2U)/PV1U
C
        HMICR(IGR,ISO,I,2)=(HMICR(IGR,ISO,I,1)*PV1D -
     1  HMICR(IGR,ISO,I,2)*PV1U)/TX
        HMICR(IGR,ISO,I,1)=(HMICR(IGR,ISO,I,1) -
     1  HMICR(IGR,ISO,I,2)*PV2U)/PV1U
        ENDIF
 880   CONTINUE
C
       IL=1
       DO 895 JGR=1,NGRP
       SCATF(2,I,IL,IGR,JGR)=(SCATF(1,I,IL,IGR,JGR)*PV1D-
     1 SCATF(2,I,IL,IGR,JGR)*PV1U)/TXB
       SCATF(1,I,IL,IGR,JGR)=(SCATF(1,I,IL,IGR,JGR) -
     1 SCATF(2,I,IL,IGR,JGR)*PV2UB)/PV1U
       DO 890 ISO=2,NISO
       SMICR(2,ISO,I,IL,IGR,JGR)=(SMICR(1,ISO,I,IL,IGR,JGR)*PV1D-
     1 SMICR(2,ISO,I,IL,IGR,JGR)*PV1U)/TX
       SMICR(1,ISO,I,IL,IGR,JGR)=(SMICR(1,ISO,I,IL,IGR,JGR) -
     1 SMICR(2,ISO,I,IL,IGR,JGR)*PV2U)/PV1U
 890   CONTINUE
 895   CONTINUE
         ELSE
         DO 930 J=1,NB
         TOTAF(IGR,I,J)=0.0
         DXF(IGR,I,J)  =0.0
         DYF(IGR,I,J)  =0.0
         DZF(IGR,I,J)  =0.0
         ZNUF(IGR,I,J)=0.0
         HF(IGR,I,J)=0.0
         DO 900 ISO=2,NISO
          TMICR(IGR,ISO,I,J) =0.0
          DMICRX(IGR,ISO,I,J)=0.0
          DMICRY(IGR,ISO,I,J)=0.0
          DMICRZ(IGR,ISO,I,J)=0.0
         IF(JTAB(ISO).EQ.1) THEN
           FMICR(IGR,ISO,I,J)=0.0
           HMICR(IGR,ISO,I,J)=0.0
         ENDIF
 900     CONTINUE
         DO 922 IL=1,NL
         DO 921 JGR=1,NGRP
         SCATF(J,I,IL,IGR,JGR)=0.0
         DO 920 ISO=2,NISO
         SMICR(J,ISO,I,IL,IGR,JGR)=0.0
 920     CONTINUE
 921     CONTINUE
 922     CONTINUE
 930     CONTINUE
         ENDIF
      ENDIF
 940  CONTINUE
 945  CONTINUE
C
C      ALL NOMINAL NEUTRONICS CONSTANTS ARE ALREDY STORED
C-----
C      STORING PROGRAM FOR THE FEEDBACK COEFFICIENTS.
C-----
      CALL LCMSIX(IPFBM,TEXTR,1)
      DO 1000 I=1,NBURN
      WRITE(TEXTB,'(4HBURN,4X,I4)') I
      CALL LCMSIX(IPFBM,TEXTB,1)
      CALL LCMSIX(IPFBM,'MACR',1)
      CALL LCMSIX(IPFBM,'ABS',1)
      CALL LCMPUT(IPFBM,TEXT1,NGRP,2,TOTAF(1,I,1))
      CALL LCMSIX(IPFBM,' ',2)
C
      IF(IXYZ.EQ.0) THEN
       CALL LCMSIX(IPFBM,'STRD  ',1)
       CALL LCMPUT(IPFBM,TEXT1,NGRP,2,DXF(1,I,1))
       CALL LCMSIX(IPFBM,' ',2)
C
      ELSE IF(IXYZ.EQ.1) THEN
       CALL LCMSIX(IPFBM,'STRD X',1)
       CALL LCMPUT(IPFBM,TEXT1,NGRP,2,DXF(1,I,1))
       CALL LCMSIX(IPFBM,' ',2)
       CALL LCMSIX(IPFBM,'STRD Y',1)
       CALL LCMPUT(IPFBM,TEXT1,NGRP,2,DYF(1,I,1))
       CALL LCMSIX(IPFBM,' ',2)
       CALL LCMSIX(IPFBM,'STRD Z',1)
       CALL LCMPUT(IPFBM,TEXT1,NGRP,2,DZF(1,I,1))
       CALL LCMSIX(IPFBM,' ',2)
      ENDIF
C
      IF(JTAB(1).EQ.1) THEN
         CALL LCMSIX(IPFBM,'NUSIGF',1)
         CALL LCMPUT(IPFBM,TEXT1,NGRP,2,ZNUF(1,I,1))
         CALL LCMSIX(IPFBM,' ',2)
C
         CALL LCMSIX(IPFBM,'H-FACTORS',1)
         CALL LCMPUT(IPFBM,TEXT1,NGRP,2,HF(1,I,1))
         CALL LCMSIX(IPFBM,' ',2)
       ENDIF
C
         IF(NB.EQ.2) THEN
         CALL LCMSIX(IPFBM,'ABS',1)
         CALL LCMPUT(IPFBM,TEXT2,NGRP,2,TOTAF(1,I,2))
         CALL LCMSIX(IPFBM,' ',2)
C
         IF(IXYZ.EQ.0) THEN
          CALL LCMSIX(IPFBM,'STRD  ',1)
          CALL LCMPUT(IPFBM,TEXT2,NGRP,2,DXF(1,I,2))
          CALL LCMSIX(IPFBM,' ',2)
C
         ELSE IF(IXYZ.EQ.1) THEN
          CALL LCMSIX(IPFBM,'STRD X',1)
          CALL LCMPUT(IPFBM,TEXT2,NGRP,2,DXF(1,I,2))
          CALL LCMSIX(IPFBM,' ',2)
          CALL LCMSIX(IPFBM,'STRD Y',1)
          CALL LCMPUT(IPFBM,TEXT2,NGRP,2,DYF(1,I,2))
          CALL LCMSIX(IPFBM,' ',2)
          CALL LCMSIX(IPFBM,'STRD Z',1)
          CALL LCMPUT(IPFBM,TEXT2,NGRP,2,DZF(1,I,2))
          CALL LCMSIX(IPFBM,' ',2)
         ENDIF
C
          IF(JTAB(1).EQ.1) THEN
          CALL LCMSIX(IPFBM,'NUSIGF',1)
          CALL LCMPUT(IPFBM,TEXT2,NGRP,2,ZNUF(1,I,2))
          CALL LCMSIX(IPFBM,' ',2)
C
          CALL LCMSIX(IPFBM,'H-FACTORS',1)
          CALL LCMPUT(IPFBM,TEXT2,NGRP,2,HF(1,I,2))
          CALL LCMSIX(IPFBM,' ',2)
          ENDIF
         ENDIF
C
      IL=1
      WRITE (CM,'(I2)') IL-1
      CALL LCMSIX(IPFBM,'SCAT'//CM,1)
      CALL LCMLEN(IPFBM,'REF',ILENG,ITYXSM)
      IF(ILENG.GT.0) THEN
      IGAR=0
      DO 955 JGR=1,NGRP
      DO 950 IGR=MIJ(JGR),MIJ(JGR)-MNJ(JGR)+1,-1
      IGAR=IGAR+1
      WORK3(IGAR)=SCATF(1,I,IL,IGR,JGR)
  950 CONTINUE
  955 CONTINUE
      CALL LCMPUT(IPFBM,TEXT1,IGAR,2,WORK3)
       IF(NB.EQ.2) THEN
       IGAR=0
       DO 965 JGR=1,NGRP
       DO 960 IGR=MIJ(JGR),MIJ(JGR)-MNJ(JGR)+1,-1
       IGAR=IGAR+1
       WORK3(IGAR)=SCATF(2,I,IL,IGR,JGR)
  960  CONTINUE
  965  CONTINUE
       CALL LCMPUT(IPFBM,TEXT2,IGAR,2,WORK3)
       ENDIF
      ENDIF
      CALL LCMSIX(IPFBM,' ',2)
C
C    GO UP FOR MACR
      CALL LCMSIX(IPFBM,' ',2)
C-----
C      STORE MICROSCOPIC INFONFORMATION
C-----
      DO 990 ISO=2,NISO
      WRITE(HMICRO,'(3A4)') (HISO((ISO-1)*3+IH),IH=1,3)
      CALL LCMLEN(IPFBM,HMICRO,ILENG,ITYLCM)
      CALL LCMSIX(IPFBM,HMICRO,1)
C
      CALL LCMSIX(IPFBM,'ABS',1)
      CALL LCMPUT(IPFBM,TEXT1,NGRP,2,TMICR(1,ISO,I,1))
      CALL LCMSIX(IPFBM,' ',2)
C
      IF(IXYZ.EQ.0) THEN
       CALL LCMSIX(IPFBM,'STRD  ',1)
       CALL LCMPUT(IPFBM,TEXT1,NGRP,2,DMICRX(1,ISO,I,1))
       CALL LCMSIX(IPFBM,' ',2)
C
      ELSE IF(IXYZ.EQ.1) THEN
       CALL LCMSIX(IPFBM,'STRD X',1)
       CALL LCMPUT(IPFBM,TEXT1,NGRP,2,DMICRX(1,ISO,I,1))
       CALL LCMSIX(IPFBM,' ',2)
       CALL LCMSIX(IPFBM,'STRD Y',1)
       CALL LCMPUT(IPFBM,TEXT1,NGRP,2,DMICRY(1,ISO,I,1))
       CALL LCMSIX(IPFBM,' ',2)
       CALL LCMSIX(IPFBM,'STRD Z',1)
       CALL LCMPUT(IPFBM,TEXT1,NGRP,2,DMICRZ(1,ISO,I,1))
       CALL LCMSIX(IPFBM,' ',2)
      ENDIF
C
      IF(JTAB(ISO).EQ.1) THEN
      CALL LCMSIX(IPFBM,'NUSIGF',1)
      CALL LCMPUT(IPFBM,TEXT1,NGRP,2,FMICR(1,ISO,I,1))
      CALL LCMSIX(IPFBM,' ',2)
C
      CALL LCMSIX(IPFBM,'H-FACTORS',1)
      CALL LCMPUT(IPFBM,TEXT1,NGRP,2,HMICR(1,ISO,I,1))
      CALL LCMSIX(IPFBM,' ',2)
      ENDIF
C
       IF(NB.EQ.2) THEN
       CALL LCMSIX(IPFBM,'ABS',1)
       CALL LCMPUT(IPFBM,TEXT2,NGRP,2,TMICR(1,ISO,I,2))
       CALL LCMSIX(IPFBM,' ',2)
C
      IF(IXYZ.EQ.0) THEN
       CALL LCMSIX(IPFBM,'STRD  ',1)
       CALL LCMPUT(IPFBM,TEXT2,NGRP,2,DMICRX(1,ISO,I,2))
       CALL LCMSIX(IPFBM,' ',2)
C
      ELSE IF(IXYZ.EQ.1) THEN
       CALL LCMSIX(IPFBM,'STRD X',1)
       CALL LCMPUT(IPFBM,TEXT2,NGRP,2,DMICRX(1,ISO,I,2))
       CALL LCMSIX(IPFBM,' ',2)
       CALL LCMSIX(IPFBM,'STRD Y',1)
       CALL LCMPUT(IPFBM,TEXT2,NGRP,2,DMICRY(1,ISO,I,2))
       CALL LCMSIX(IPFBM,' ',2)
       CALL LCMSIX(IPFBM,'STRD Z',1)
       CALL LCMPUT(IPFBM,TEXT2,NGRP,2,DMICRZ(1,ISO,I,2))
       CALL LCMSIX(IPFBM,' ',2)
      ENDIF
C
       IF(JTAB(ISO).EQ.1) THEN
       CALL LCMSIX(IPFBM,'NUSIGF',1)
       CALL LCMPUT(IPFBM,TEXT2,NGRP,2,FMICR(1,ISO,I,2))
       CALL LCMSIX(IPFBM,' ',2)
C
       CALL LCMSIX(IPFBM,'H-FACTORS',1)
       CALL LCMPUT(IPFBM,TEXT2,NGRP,2,HMICR(1,ISO,I,2))
       CALL LCMSIX(IPFBM,' ',2)
       ENDIF
       ENDIF
C
      IL=1
      WRITE (CM,'(I2)') IL-1
      CALL LCMSIX(IPFBM,'SCAT'//CM,1)
      CALL LCMLEN(IPFBM,'REF',ILENG,ITYXSM)
      IF(ILENG.GT.0) THEN
      IGAR=0
      DO 975 JGR=1,NGRP
      DO 970 IGR=MIJ(JGR),MIJ(JGR)-MNJ(JGR)+1,-1
      IGAR=IGAR+1
      WORK3(IGAR)=SMICR(1,ISO,I,IL,IGR,JGR)
  970 CONTINUE
  975 CONTINUE
      CALL LCMPUT(IPFBM,TEXT1,IGAR,2,WORK3)
       IF(NB.EQ.2) THEN
       IGAR=0
       DO 985 JGR=1,NGRP
       DO 980 IGR=MIJ(JGR),MIJ(JGR)-MNJ(JGR)+1,-1
       IGAR=IGAR+1
       WORK3(IGAR)=SMICR(2,ISO,I,IL,IGR,JGR)
  980  CONTINUE
  985  CONTINUE
       CALL LCMPUT(IPFBM,TEXT2,IGAR,2,WORK3)
       ENDIF
      ENDIF
      CALL LCMSIX(IPFBM,' ',2)
C
C     GO UP FOR MICR
      CALL LCMSIX(IPFBM,' ',2)
  990 CONTINUE
C     GO UP FOR BURN
      CALL LCMSIX(IPFBM,' ',2)
 1000 CONTINUE
C
      CALL LCMSIX(IPFBM,' ',2)
*----
*  SCRATCH STORAGE DEALLOCATION
*----
      DEALLOCATE(IXS,NJJ,IJJ)
C
      RETURN
 6000 FORMAT(' Keyword =',A8,' ncor =',i4,' Param =',8(2X,A8))
      END