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|
*DECK USSDRV
SUBROUTINE USSDRV(IPLI0,IPTRK,IPLIB,IFTRAK,INDREC,CDOOR,IMPX,
1 IGRMIN,IGRMAX,NGRP,NBMIX,NREG,NUN,NBISO,NL,NED,NDEL,LEAKSW,
2 ITRANC,IPHASE,TITR,KSPH,NRES,NPASS,ICALC,ICORR,ISUBG,MAXST,
3 LFLAT)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Driver for a resonance self-shielding calculation.
*
*Copyright:
* Copyright (C) 2003 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): A. Hebert
*
*Parameters: input
* IPLI0 pointer to the internal microscopic cross section library
* builded by the self-shielding module (L_LIBRARY signature).
* IPTRK pointer to the tracking (L_TRACK signature).
* IPLIB pointer to the internal microscopic cross section library
* with subgroups (L_LIBRARY signature).
* IFTRAK unit number of the sequential binary tracking file.
* INDREC access flag for the internal microscopic cross section library
* builded by the self-shielding module (=1 IPLI0 access in
* creation mode; =2 in modification mode).
* CDOOR name of the geometry/solution operator.
* IMPX print flag (equal to zero for no print).
* IGRMIN first group where the self-shielding is applied.
* IGRMAX most thermal group where the self-shielding is applied.
* NGRP number of energy groups.
* NBMIX number of mixtures in the internal library.
* NREG number of regions.
* NUN number of unknowns per energy group.
* NBISO number of isotopes specifications in the internal library.
* NL number of Legendre orders required in the calculation
* (NL=1 or higher).
* NED number of extra vector edits.
* NDEL number of delayed neutron precursor groups.
* LEAKSW leakage flag (LEAKSW=.TRUE. if neutron leakage through
* external boundary is present).
* ITRANC type of transport correction.
* IPHASE type of flux solution (=1 use a native flux solution door;
* =2 use collision probabilities).
* TITR title.
* KSPH SPH equivalence flag (=0 no SPH correction; =1 SPH correction
* in the fuel).
* NRES number of self-shielding zones, as given by LIB:.
* NPASS number of outer iterations.
* ICALC simplified self-shielding flag (=1 IPLI0 is containing ICALC
* data. =0 no ICALC data).
* ICORR mutual resonance shielding flag (=1 to suppress the model
* in cases it is required in LIB operator).
* ISUBG type of self-shielding model (=1 use physical probability
* tables; =3 use original Ribon method; =4 use Ribon extended
* method; =6 use resonance spectrum expansion method).
* MAXST maximum number of fixed point iterations for the ST scattering
* source.
* LFLAT force the initial subgroup flux to be flat if IPLI0 is open
* in modification mode.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPLI0,IPTRK,IPLIB
INTEGER IFTRAK,INDREC,IMPX,IGRMIN,IGRMAX,NGRP,NBMIX,NREG,NUN,
1 NBISO,NL,NED,NDEL,ITRANC,IPHASE,KSPH,NRES,NPASS,ICALC,ICORR,
2 ISUBG,MAXST
CHARACTER CDOOR*12,TITR*72
LOGICAL LEAKSW,LFLAT
*----
* LOCAL VARIABLES
*----
PARAMETER (NSTATE=40,MAXRSS=300,MAXESP=4)
TYPE(C_PTR) JPLI0,KPLI0,JPLIB,KPLIB
CHARACTER HSMG*131,HCAL*12,TEXT4*4,NAM1*4,FNAM1*4,NAM2*12,
1 FNAM2*12,CBDPNM*12,TEXT8*8
INTEGER IPAR(NSTATE),IRSS(MAXRSS),IESP(MAXESP+1)
REAL TMPDAY(3),EESP(MAXESP+1)
LOGICAL LTEST
*----
* ALLOCATABLE ARRAYS
*----
INTEGER, ALLOCATABLE, DIMENSION(:) :: MAT,KEYFLX,MIX,IEVOL,ITYPE,
1 LSHI,IAPT,IHSUF,IREX,ILLIB,JCEDM,LSHI2
INTEGER, ALLOCATABLE, DIMENSION(:,:) :: ISONAM,ISONRF,IHLIB
REAL, ALLOCATABLE, DIMENSION(:) :: VOL,TN,DEN,ENER,GS,VOLMIX
LOGICAL, ALLOCATABLE, DIMENSION(:) :: MASK,MASKL
*----
* SCRATCH STORAGE ALLOCATION
*----
ALLOCATE(MAT(NREG),KEYFLX(NREG),ISONAM(3,NBISO),ISONRF(3,NBISO),
3 MIX(NBISO),IEVOL(NBISO),ITYPE(NBISO),LSHI(NBISO),IAPT(NBISO),
4 IHSUF(NBISO),IREX(NBMIX),IHLIB(2,NBISO),ILLIB(NBISO))
ALLOCATE(VOL(NREG),TN(NBISO),DEN(NBISO))
*----
* RECOVER USEFUL INFORMATION FROM TRACKING OBJECT.
*----
CALL LCMGET(IPTRK,'MATCOD',MAT)
CALL LCMGET(IPTRK,'VOLUME',VOL)
CALL LCMGET(IPTRK,'KEYFLX',KEYFLX)
*----
* RECOVER USEFUL INFORMATION FROM LIBRARY OBJECTS.
*----
CALL LCMGET(IPLIB,'ISOTOPESUSED',ISONAM)
CALL LCMGET(IPLIB,'ISOTOPERNAME',ISONRF)
CALL LCMGET(IPLIB,'ISOTOPESMIX',MIX)
CALL LCMGET(IPLIB,'ISOTOPESTODO',IEVOL)
CALL LCMGET(IPLIB,'ISOTOPESTYPE',ITYPE)
CALL LCMGET(IPLIB,'ISOTOPESTEMP',TN)
*
CALL LCMPUT(IPLI0,'ISOTOPESMIX',NBISO,1,MIX)
CALL LCMPUT(IPLI0,'ISOTOPESTODO',NBISO,1,IEVOL)
CALL LCMPUT(IPLI0,'ISOTOPESTYPE',NBISO,1,ITYPE)
CALL LCMPUT(IPLI0,'ISOTOPESTEMP',NBISO,2,TN)
IF(INDREC.EQ.1) THEN
CALL LCMGET(IPLIB,'ISOTOPESDENS',DEN)
CALL LCMPUT(IPLI0,'ISOTOPESDENS',NBISO,2,DEN)
ELSE IF(INDREC.EQ.2) THEN
CALL LCMGET(IPLI0,'ISOTOPESDENS',DEN)
ENDIF
CALL LCMGET(IPLIB,'ISOTOPESSHI',LSHI)
CALL LCMLEN(IPLIB,'ISOTOPESDSN',NELSN,ITYLCM)
IF(NELSN.GT.0) THEN
NGIS=NGRP*NBISO
ALLOCATE(GS(NGIS))
CALL LCMGET(IPLIB,'ISOTOPESDSN',GS)
CALL LCMPUT(IPLI0,'ISOTOPESDSN',NGIS,2,GS)
CALL LCMGET(IPLIB,'ISOTOPESDSB',GS)
CALL LCMPUT(IPLI0,'ISOTOPESDSB',NGIS,2,GS)
DEALLOCATE(GS)
ENDIF
ALLOCATE(ENER(NGRP+1))
CALL LCMGET(IPLIB,'ENERGY',ENER)
CALL LCMPUT(IPLI0,'ENERGY',NGRP+1,2,ENER)
CALL LCMGET(IPLIB,'DELTAU',ENER)
CALL LCMPUT(IPLI0,'DELTAU',NGRP,2,ENER)
DEALLOCATE(ENER)
CALL LCMLEN(IPLIB,'CHI-LIMITS',NBESP,ITYLCM)
IF(NBESP.GT.0) THEN
NBESP=NBESP-1
IF(NBESP.GT.MAXESP) CALL XABORT('USSDRV: MAXESP OVERFLOW.')
CALL LCMGET(IPLIB,'CHI-LIMITS',IESP)
CALL LCMPUT(IPLI0,'CHI-LIMITS',NBESP+1,1,IESP)
CALL LCMGET(IPLIB,'CHI-ENERGY',EESP)
CALL LCMPUT(IPLI0,'CHI-ENERGY',NBESP+1,2,EESP)
ENDIF
DO 10 ISO=1,NBISO
DO 5 I=1,NREG
IF(MAT(I).EQ.MIX(ISO)) GO TO 10
5 CONTINUE
LSHI(ISO)=0
10 CONTINUE
*----
* COMPUTE MIXTURESVOL.
*----
ALLOCATE(VOLMIX(NBMIX))
VOLMIX(:NBMIX)=0.0
DO I=1,NREG
IBM=MAT(I)
IF(IBM.GT.0) VOLMIX(IBM)=VOLMIX(IBM)+VOL(I)
CALL LCMPUT(IPLI0,'MIXTURESVOL',NBMIX,2,VOLMIX)
ENDDO
DEALLOCATE(VOLMIX)
*
DO 15 ISO=1,NBISO
TEXT8='MICROLIB'
READ(TEXT8,'(2A4)') IHLIB(1,ISO),IHLIB(2,ISO)
ILLIB(ISO)=0
15 CONTINUE
CALL LCMPUT(IPLI0,'ILIBRARYTYPE',2*NBISO,3,IHLIB(1,1))
CALL LCMPUT(IPLI0,'ILIBRARYINDX',NBISO,1,ILLIB)
*
JPLIB=LCMGID(IPLIB,'ISOTOPESLIST')
JPLI0=LCMLID(IPLI0,'ISOTOPESLIST',NBISO)
IF(INDREC.EQ.1) THEN
* COPY THE NON RESONANT ISOTOPES.
CALL KDRCPU(TK1)
DO 20 ISO=1,NBISO
IF((LSHI(ISO).EQ.0).OR.(DEN(ISO).EQ.0.0)) THEN
CALL LCMLEL(JPLIB,ISO,ILEN,ITYLCM)
IF(ILEN.EQ.0) THEN
DO JSO=1,ISO-1
CALL LCMLEL(JPLIB,JSO,ILEN,ITYLCM)
IF(ILEN.EQ.0) CYCLE
IF((ISONAM(1,ISO).EQ.ISONAM(1,JSO)).AND.(ISONAM(2,ISO)
1 .EQ.ISONAM(2,JSO)).AND.(ISONAM(3,ISO).EQ.ISONAM(3,JSO)))
2 THEN
IF(LSHI(JSO).GT.0) THEN
KPLIB=LCMGIL(JPLIB,JSO) ! set JSO-th isotope
GO TO 16
ELSE
GO TO 20
ENDIF
ENDIF
ENDDO
ELSE
KPLIB=LCMGIL(JPLIB,ISO) ! set ISO-th isotope
GO TO 16
ENDIF
GO TO 20
16 CALL LCMLEL(JPLI0,ISO,ILEN,ITYLCM)
IF(ILEN.NE.0) GO TO 20
KPLI0=LCMDIL(JPLI0,ISO) ! set ISO-th isotope
CALL LCMEQU(KPLIB,KPLI0)
ENDIF
20 CONTINUE
CALL KDRCPU(TK2)
IF(IMPX.GT.1) WRITE(6,'(/33H USSDRV: CPU TIME SPENT TO COPY T,
1 26HHE NON-RESONANT ISOTOPES =,F8.1,8H SECOND.)') TK2-TK1
*
* WRITE THE OUTPUT INTERNAL LIBRARY PARAMETERS.
CALL LCMGET(IPLIB,'STATE-VECTOR',IPAR)
IPAR(8)=0
IPAR(17)=0
CALL LCMPUT(IPLI0,'STATE-VECTOR',NSTATE,1,IPAR)
IF(NED.GT.0) THEN
ALLOCATE(JCEDM(2*NED))
CALL LCMGET(IPLIB,'ADDXSNAME-P0',JCEDM)
CALL LCMPUT(IPLI0,'ADDXSNAME-P0',2*NED,3,JCEDM)
DEALLOCATE(JCEDM)
ENDIF
CALL LCMLEN(IPLIB,'DEPL-CHAIN',ILENG,ITYLCM)
IF(ILENG.NE.0) THEN
CALL LCMSIX(IPLIB,'DEPL-CHAIN',1)
CALL LCMSIX(IPLI0,'DEPL-CHAIN',1)
CALL LCMEQU(IPLIB,IPLI0)
CALL LCMSIX(IPLI0,' ',2)
CALL LCMSIX(IPLIB,' ',2)
ENDIF
ENDIF
*----
* RECOMPUTE THE VECTOR LSHI.
*----
ALLOCATE(LSHI2(NBISO))
NRES2=0
NRES3=0
DO 30 ISO=1,NBISO
IF(LSHI(ISO).NE.0) NRES3=NRES3+1
LSHI2(ISO)=0
30 CONTINUE
DO 80 INRS=1,NRES
40 DENMAX=0.0
KSOT=0
DO 60 ISO=1,NBISO
IF(LSHI2(ISO).EQ.0) THEN
VOLISO=0.0
DO 50 I=1,NREG
IF(MAT(I).EQ.MIX(ISO)) VOLISO=VOLISO+VOL(I)
50 CONTINUE
IF((ABS(LSHI(ISO)).EQ.INRS).AND.(DEN(ISO)*VOLISO.GT.DENMAX))
1 THEN
KSOT=ISO
DENMAX=DEN(ISO)*VOLISO
ENDIF
ENDIF
60 CONTINUE
IF(KSOT.GT.0) THEN
NRES2=NRES2+1
DO 70 ISO=1,NBISO
LTEST=((ISONRF(1,ISO).EQ.ISONRF(1,KSOT)).AND.
1 (ISONRF(2,ISO).EQ.ISONRF(2,KSOT)).AND.
2 (ISONRF(3,ISO).EQ.ISONRF(3,KSOT)).AND.
3 (ABS(LSHI(ISO)).EQ.INRS))
LTEST=LTEST.OR.((ISONAM(1,ISO).EQ.ISONAM(1,KSOT)).AND.
1 (ISONAM(2,ISO).EQ.ISONAM(2,KSOT)).AND.
2 (ABS(LSHI(ISO)).EQ.INRS))
IF(LTEST) LSHI2(ISO)=NRES2
IF(LTEST.AND.(LSHI(ISO).EQ.-INRS)) THEN
DO 65 JSO=1,NBISO
IF(LSHI(JSO).EQ.LSHI(ISO)) LSHI2(JSO)=NRES2
65 CONTINUE
ENDIF
70 CONTINUE
GO TO 40
ENDIF
80 CONTINUE
IF(NRES2.EQ.0) THEN
CALL LCMEQU(IPLIB,IPLI0)
GO TO 266
ENDIF
*----
* FIND THE ISOTOPE-NAME SUFFIX VALUES.
*----
TEXT4=' '
READ(TEXT4,'(A4)') IHBLK
DO 90 ISO=1,NBISO
IF((LSHI2(ISO).NE.0).AND.(DEN(ISO).NE.0.0)) THEN
WRITE(TEXT4,'(I4.4)') MIX(ISO)
READ(TEXT4,'(A4)') IHSUF(ISO)
ELSE
IHSUF(ISO)=IHBLK
ENDIF
90 CONTINUE
IF(ICALC.EQ.1) THEN
CALL LCMSIX(IPLI0,'SHIBA_SG',1)
CALL LCMSIX(IPLI0,'-DATA-CALC-',1)
NAM1=' '
CALL LCMNXT(IPLI0,NAM1)
FNAM1=NAM1
100 CALL LCMSIX(IPLI0,NAM1,1)
NAM2=' '
CALL LCMNXT(IPLI0,NAM2)
FNAM2=NAM2
110 CALL LCMLEN(IPLI0,NAM2,NRSS,ITYLCM)
CALL LCMGET(IPLI0,NAM2,IRSS)
READ(NAM2,'(2A4)') IN1,IN2
DO 130 ISO=1,NBISO
IF((ISONAM(1,ISO).EQ.IN1).AND.(ISONAM(2,ISO).EQ.IN2).AND.
1 (LSHI2(ISO).NE.0)) THEN
IF((NRSS.EQ.1).AND.(IRSS(1).EQ.-999)) THEN
READ(NAM1,'(A4)') IHSUF(ISO)
ELSE
DO 120 I=1,NRSS
IF(IRSS(I).EQ.MIX(ISO)) READ(NAM1,'(A4)') IHSUF(ISO)
120 CONTINUE
ENDIF
ENDIF
130 CONTINUE
CALL LCMNXT(IPLI0,NAM2)
IF(NAM2.EQ.FNAM2) GO TO 140
GO TO 110
140 CALL LCMSIX(IPLI0,' ',2)
CALL LCMNXT(IPLI0,NAM1)
IF(NAM1.EQ.FNAM1) THEN
CALL LCMSIX(IPLI0,' ',2)
CALL LCMSIX(IPLI0,' ',2)
GO TO 150
ENDIF
GO TO 100
ENDIF
*
150 NPASS2=NPASS
IF(NRES3.EQ.1) NPASS2=1
DO 265 IPASS=1,NPASS2
IF((IMPX.GT.0).AND.(NPASS2.GT.1)) WRITE (6,'(/15H USSDRV: SELF S,
1 25HHIELDING ITERATION NUMBER,I4,8H NRES2=,I4,1H.)') IPASS,NRES2
DO 260 INRS=1,NRES2
*----
* COMPUTE THE NUMBER OF RESONANT ISOTOPES IN REGION INRS AND THE
* RESONANT ISOTOPE INDEX ASSOCIATED TO EACH ISOTOPE SPECIFICATION.
*----
NIRES=0
DO 200 ISO=1,NBISO
IAPT(ISO)=0
IF((LSHI2(ISO).EQ.INRS).AND.(DEN(ISO).NE.0.0)) THEN
DO 170 I=1,NREG
IF(MAT(I).EQ.MIX(ISO)) GO TO 180
170 CONTINUE
GO TO 200
180 DO 190 JSO=1,ISO-1
IF((ISONAM(1,ISO).EQ.ISONAM(1,JSO)).AND.
1 (ISONAM(2,ISO).EQ.ISONAM(2,JSO)).AND.
2 (ISONAM(3,ISO).EQ.ISONAM(3,JSO)).AND.
3 (LSHI2(JSO).EQ.INRS).AND.
4 (DEN(JSO).NE.0.0).AND.(IAPT(JSO).NE.0)) THEN
IAPT(ISO)=IAPT(JSO)
GO TO 200
ENDIF
190 CONTINUE
IIII=ISO
NIRES=NIRES+1
IAPT(ISO)=NIRES
ENDIF
200 CONTINUE
WRITE(HCAL,'(1HC,I5.5,1H/,I5.5)') IIII,NBISO
IF(NIRES.EQ.0) THEN
WRITE(HSMG,'(45HUSSDRV: NO RESONANT ISOTOPES IN RESONANT REGI,
1 9HON NUMBER,I4,7H (HCAL=,A12,2H).)') INRS,HCAL
CALL XABORT(HSMG)
ENDIF
IF(IMPX.GT.0) WRITE (6,'(/35H USSDRV: PERFORMING SELF-SHIELDING ,
1 18HCALCULATION NAMED ,A12,1H.)') HCAL
*----
* FIND THE NUMBER OF FUEL REGIONS AND THE FUEL REGION INDICES ASSIGNED
* TO EACH RESONANT MIXTURE.
*----
NBNRS=0
DO 210 IBM=1,NBMIX
IREX(IBM)=0
210 CONTINUE
DO 230 ISO=1,NBISO
IBM=MIX(ISO)
IF((IAPT(ISO).GT.0).AND.(IREX(IBM).EQ.0)) THEN
DO 220 JSO=1,ISO-1
IF((IHSUF(JSO).EQ.IHSUF(ISO)).AND.(IAPT(JSO).EQ.IAPT(ISO)))
1 THEN
IREX(IBM)=IREX(MIX(JSO))
GO TO 230
ENDIF
220 CONTINUE
IF(IMPX.GT.0) WRITE(6,'(9X,3H-->,3A4)') (ISONAM(J,ISO),J=1,2),
1 IHSUF(ISO)
NBNRS=NBNRS+1
IREX(IBM)=NBNRS
ELSE IF(IAPT(ISO).GT.0) THEN
IF(IMPX.GT.0) WRITE(6,'(9X,3H-->,3A4)') (ISONAM(J,ISO),J=1,3)
ENDIF
230 CONTINUE
IF(NBNRS.EQ.0) THEN
WRITE (HSMG,'(33HUSSDRV: INVALID RESONANT REGION =,I10)') INRS
CALL XABORT(HSMG)
ENDIF
IF(IMPX.GE.0) WRITE(6,410) NIRES,NBNRS,INRS
*----
* DETERMINE WHICH MODERATOR ISOTOPES ARE MIXED WITH RESONANT ONES.
*----
DO 250 ISO=1,NBISO
IF((IAPT(ISO).EQ.0).AND.(IREX(MIX(ISO)).GT.0)) IAPT(ISO)=NIRES+1
250 CONTINUE
*----
* ERASE OLD GROUP-INFO AND ASSEMB- DIRECTORIES.
*----
IF(LFLAT.AND.(IPASS.EQ.1).AND.(INDREC.EQ.2)) THEN
CALL LCMSIX(IPLI0,'SHIBA_SG',1)
CALL LCMSIX(IPLI0,HCAL,1)
DO IRES=1,NIRES
WRITE(CBDPNM,'(3HCOR,I4.4,1H/,I4.4)') IRES,NIRES
CALL LCMSIX(IPLI0,CBDPNM,1)
CALL LCMLEN(IPLI0,'GROUP-INFO',ILONG,ITYLCM)
IF(ILONG.GT.0) CALL LCMDEL(IPLI0,'GROUP-INFO')
CALL LCMLEN(IPLI0,'ASSEMB-PHYS',ILONG,ITYLCM)
IF(ILONG.GT.0) CALL LCMDEL(IPLI0,'ASSEMB-PHYS')
CALL LCMLEN(IPLI0,'ASSEMB-RIBON',ILONG,ITYLCM)
IF(ILONG.GT.0) CALL LCMDEL(IPLI0,'ASSEMB-RIBON')
CALL LCMLEN(IPLI0,'ASSEMB-RSE',ILONG,ITYLCM)
IF(ILONG.GT.0) CALL LCMDEL(IPLI0,'ASSEMB-RSE')
CALL LCMSIX(IPLI0,' ',2)
ENDDO
CALL LCMSIX(IPLI0,' ',2)
CALL LCMSIX(IPLI0,' ',2)
ENDIF
*----
* PERFORM A SELF-SHIELDING CALCULATION NAMED HCAL.
*----
CALL USSONE(IPLI0,IPTRK,IPLIB,IFTRAK,CDOOR,IMPX,IGRMIN,IGRMAX,
1 NIRES,NBNRS,IREX,NGRP,NBMIX,NREG,NUN,NBISO,NL,NED,NDEL,ISONAM,
2 IHSUF,HCAL,DEN,MIX,IAPT,MAT,VOL,KEYFLX,LEAKSW,ITRANC,IPHASE,
3 TITR,KSPH,ICORR,ISUBG,MAXST)
260 CONTINUE
265 CONTINUE
266 DEALLOCATE(LSHI2)
IF(IMPX.GE.4) CALL LCMLIB(IPLI0)
*----
* BUILD THE MACROLIB IN THE OUTPUT INTERNAL LIBRARY.
*----
ALLOCATE(MASK(NBMIX))
DO 280 IBM=1,NBMIX
MASK(IBM)=.TRUE.
DO 270 I=1,NREG
IF(MAT(I).EQ.IBM) GO TO 280
270 CONTINUE
MASK(IBM)=.FALSE.
280 CONTINUE
ALLOCATE(MASKL(NGRP))
DO 290 I=1,NGRP
MASKL(I)=.TRUE.
290 CONTINUE
*
ITSTMP=0
TMPDAY(1)=0.0
TMPDAY(2)=0.0
TMPDAY(3)=0.0
CALL KDRCPU(TK1)
CALL LCMLEN(IPLI0,'ISOTOPESUSED',ILENG,ITYLCM)
IF(ILENG.EQ.0) CALL XABORT('USSDRV: MISSING ISOTOPESUSED RECORD.')
CALL LCMGET(IPLI0,'ISOTOPESUSED',ISONAM)
CALL LIBMIX(IPLI0,NBMIX,NGRP,NBISO,ISONAM,MIX,DEN,MASK,MASKL,
1 ITSTMP,TMPDAY)
CALL KDRCPU(TK2)
IF(IMPX.GT.1) WRITE(6,'(/37H USSDRV: CPU TIME SPENT TO BUILD THE ,
1 19HEMBEDDED MACROLIB =,F8.1,8H SECOND.)') TK2-TK1
DEALLOCATE(MASKL,MASK)
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(DEN,TN,VOL)
DEALLOCATE(ILLIB,IHLIB,IREX,IHSUF,IAPT,LSHI,ITYPE,IEVOL,MIX,
1 ISONRF,ISONAM,KEYFLX,MAT)
RETURN
*
410 FORMAT(/48H USSDRV: NUMBER OF CORRELATED RESONANT ISOTOPES=,I4/9X,
1 35HNUMBER OF CORRELATED FUEL MIXTURES=,I4,19H IN RESONANT REGION,
2 I3)
END
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