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|
*DECK EDIDST
SUBROUTINE EDIDST(IPEDIT,IPRINT,NL,NGCOND,NMERGE,NSTATS,ILEAKS,
> EIGENK,B2,VOLMER,WLETYC,RATECM,FLUXCM,SCATTS,
> OLDNAM,NW,NTAUXT)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Reaction rates and fluxes statistics.
*
*Copyright:
* Copyright (C) 2002 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): G. Marleau
*
*Parameters: input
* IPEDIT pointer to the edition LCM object.
* IPRINT print level;
* = 0 no print;
* = 1 print fluxes;
* = 2 1+print reaction rates;
* = 3 2+print homogenized cross sections.
* NL number of legendre orders.
* NGCOND number of groups.
* NMERGE number of regions.
* NSTATS statistics options:
* = 1 flux stats;
* = 2 reaction rates stats;
* = 3 flux+reaction rates stats;
* =-1 delta sigma calculations.
* ILEAKS type of leakage calculation:
* = 0 no leakage;
* = 1 homogeneous leakage (Diffon);
* = 2 isotropic streaming (Ecco);
* = 3 anisotropic streaming (Tibere).
* EIGENK New eigenvalue.
* B2 New buckling.
* VOLMER volume of merged regions.
* WLETYC lethargy width.
* RATECM averaged region/group cross sections:
* = RATECM(*,1) = total P0;
* = RATECM(*,2) = total P1;
* = RATECM(*,NW+2) = absorption;
* = RATECM(*,NW+3) = fission;
* = RATECM(*,NW+4) = fixed sources / productions;
* = RATECM(*,NW+5) = leakage;
* = RATECM(*,NW+6) = total out of group scattering;
* = RATECM(*,NW+7) = diagonal scattering x-s;
* = RATECM(*,NW+8) = chi;
* = RATECM(*,NW+9) = wims type transport correction;
* = RATECM(*,NW+10) = x-directed leakage;
* = RATECM(*,NW+11) = y-directed leakage;
* = RATECM(*,NW+12) = z-directed leakage;
* = RATECM(*,NW+13) = nu-sigf for delayed neutrons;
* = RATECM(*,NW+13+NDEL) = fission spectra for delayed neutrons.
* FLUXCM integrated region/group fluxes:
* = FLUXCM(*,1) = fluxes P0;
* = FLUXCM(*,2) = fluxes P1.
* SCATTS new scattering matrix.
* OLDNAM name of reference calculation directory.
* NW type of weighting for PN cross section info (=0 P0; =1 P1).
* NTAUXT number of reaction rate edits.
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPEDIT
INTEGER IPRINT,NL,NGCOND,NMERGE,NSTATS,ILEAKS,NW,NTAUXT
REAL EIGENK,B2,VOLMER(NMERGE),WLETYC(NGCOND),
> RATECM(NMERGE,NGCOND,NTAUXT),
> FLUXCM(NMERGE,NGCOND,NW+1),
> SCATTS(NMERGE,NGCOND,NGCOND,NL)
CHARACTER OLDNAM*12
*----
* LOCAL VARIABLES
*----
PARAMETER (IUNOUT=6,ILCMUP=1,ILCMDN=2,TRONCE=0.001,NSTATE=40)
TYPE(C_PTR) JPEDIT,KPEDIT
CHARACTER CXSNAM*12,CM*2
INTEGER IDATA(NSTATE)
DOUBLE PRECISION SOUOLD,SOUNEW
REAL EIGOLD,B2OLD(4)
INTEGER IEGC,IB2C
INTEGER, ALLOCATABLE, DIMENSION(:) :: INGSCT,IFGSCT,IPOSCT
REAL, ALLOCATABLE, DIMENSION(:) :: FLXNEW,FLXOLD,OLDRAT,XSCAT,
> DELSC
*----
* SCRATCH STORAGE ALLOCATION
* FLXNEW new fluxes.
* FLXOLD old fluxes.
* OLDRAT old rates.
*----
ALLOCATE(FLXNEW(NMERGE),FLXOLD(NMERGE),OLDRAT(NMERGE+NGCOND))
*----
CALL LCMLEN(IPEDIT,OLDNAM,ILCMLN,ILCMTY)
IF(ILCMLN.GE.0) THEN
WRITE(IUNOUT,7000) OLDNAM
CALL LCMLIB(IPEDIT)
RETURN
ENDIF
CALL LCMSIX(IPEDIT,OLDNAM,ILCMUP)
CALL LCMLEN(IPEDIT,'DELTAU',ILCMLN,ILCMTY)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(IPEDIT,'DELTAU',OLDRAT)
ERRREL=0.0
DO 80 IGR=1,NGCOND
ERRREL=ERRREL+ABS(WLETYC(IGR)-OLDRAT(IGR))
80 CONTINUE
ERRREL=ERRREL/NGCOND
IF(ERRREL.GT.TRONCE) THEN
WRITE(IUNOUT,7004) ERRREL,TRONCE
CALL LCMSIX(IPEDIT,' ',ILCMDN)
RETURN
ENDIF
ENDIF
CALL LCMSIX(IPEDIT,'MACROLIB',ILCMUP)
CALL LCMGET(IPEDIT,'STATE-VECTOR',IDATA)
NGOLD=IDATA(1)
NROLD=IDATA(2)
CALL LCMLEN(IPEDIT,'K-EFFECTIVE',ILCMLN,ILCMTY)
IEGC=0
IF(ILCMLN .EQ. 1) THEN
CALL LCMGET(IPEDIT,'K-EFFECTIVE',EIGOLD)
IEGC=1
ELSE
EIGOLD=1.0
ENDIF
IB2C=0
B2OLD(:4)=0.0
CALL LCMLEN(IPEDIT,'B2 HETE',ILCMLN,ILCMTY)
IF(ILCMLN .EQ. 1) THEN
CALL LCMGET(IPEDIT,'B2 HETE',B2OLD)
IB2C=2
ELSE
CALL LCMLEN(IPEDIT,'B2 B1HOM',ILCMLN,ILCMTY)
IF(ILCMLN .EQ. 1) THEN
CALL LCMGET(IPEDIT,'B2 B1HOM',B2(4))
IB2C=1
ENDIF
ENDIF
IF( (NROLD.NE.NMERGE).OR.(NGOLD.NE.NGCOND)) THEN
WRITE(IUNOUT,7001) NMERGE,NROLD,NGCOND,NGOLD
CALL LCMSIX(IPEDIT,' ',ILCMDN)
CALL LCMSIX(IPEDIT,' ',ILCMDN)
RETURN
ENDIF
*----
* COMPUTE TOTAL SOURCES FOR RELATIVE FLUX NORMALIZATION
*----
SOUOLD=0.0D0
SOUNEW=0.0D0
JPEDIT=LCMGID(IPEDIT,'GROUP')
DO 300 IGR=1,NGCOND
KPEDIT=LCMGIL(JPEDIT,IGR)
CALL LCMGET(KPEDIT,'FLUX-INTG',FLXOLD)
DO 310 IREG=1,NMERGE
FLXNEW(IREG)=FLUXCM(IREG,IGR,1)
310 CONTINUE
CALL LCMGET(KPEDIT,'PRODUCTION',OLDRAT)
DO 320 IREG=1,NMERGE
SOUOLD=SOUOLD+DBLE(FLXOLD(IREG))*DBLE(OLDRAT(IREG))
SOUNEW=SOUNEW+DBLE(FLXNEW(IREG))*DBLE(RATECM(IREG,IGR,NW+4))
320 CONTINUE
300 CONTINUE
*----
* CHECK FOR VOLUME CONSISTENCE
*----
VOLTOT=0.0
VOLT2=0.0
CALL LCMGET(IPEDIT,'VOLUME',OLDRAT)
DO 100 IREG=1,NMERGE
VOLTOT=VOLTOT+VOLMER(IREG)
VOLT2=VOLT2+OLDRAT(IREG)
100 CONTINUE
VOLREL=VOLT2 /VOLTOT
DO 101 IREG=1,NMERGE
VREL1=VOLMER(IREG)/VOLTOT
VREL2=OLDRAT(IREG)/VOLT2
ERRREL=ABS(VREL1-VREL2)/VREL2
IF(ERRREL.GT.TRONCE) THEN
WRITE(IUNOUT,7002) VOLREL,IREG,ERRREL,TRONCE
CALL LCMSIX(IPEDIT,' ',ILCMDN)
CALL LCMSIX(IPEDIT,' ',ILCMDN)
RETURN
ENDIF
101 CONTINUE
IF((SOUOLD.EQ.0.0D0).OR.(SOUNEW.EQ.0.0D0)) THEN
WRITE(IUNOUT,7005)
SOUREL=1.0
ELSE
SOUREL=REAL(SOUOLD/SOUNEW)
ENDIF
WRITE(IUNOUT,6000) OLDNAM,NGCOND,NMERGE,VOLREL,SOUREL
IF(IEGC .EQ. 1) THEN
WRITE(IUNOUT,6010) EIGOLD,EIGENK,1000.*(EIGENK-EIGOLD)
ENDIF
IF(IB2C .GE. 1) THEN
WRITE(IUNOUT,6011) B2OLD(4),B2(4),B2(4)-B2OLD(4)
ENDIF
IF(NSTATS.EQ.-1) THEN
ALLOCATE(INGSCT(NMERGE),IFGSCT(NMERGE),IPOSCT(NMERGE))
ALLOCATE(XSCAT(NMERGE*NGCOND),DELSC(NGCOND))
ENDIF
DO 210 IGR=1,NGCOND
KPEDIT=LCMGIL(JPEDIT,IGR)
WRITE(IUNOUT,6001) IGR
CXSNAM='FLUX-INTG'
CALL LCMGET(KPEDIT,CXSNAM,FLXOLD)
IF(NSTATS.GE.1) THEN
IF(NSTATS.NE.2) THEN
WRITE(IUNOUT,6002) CXSNAM
ITYPE=1
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLUXCM(1,IGR,1),FLXOLD,RATECM(1,IGR,1),OLDRAT)
ENDIF
IF(NSTATS.GE.2) THEN
DO 102 IREG=1,NMERGE
FLXNEW(IREG)=FLUXCM(IREG,IGR,1)
102 CONTINUE
ITYPE=2
CXSNAM='NTOT0'
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6002) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,1),OLDRAT)
CXSNAM='ABS'
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6002) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+2),OLDRAT)
CXSNAM='PRODUCTION'
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6002) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+4),OLDRAT)
IF(IDATA(4).EQ.1) THEN
CXSNAM='NUSIGF'
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6002) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+3),OLDRAT)
ENDIF
DO 134 IL=1,NL
WRITE (CM,'(I2.2)') IL-1
CXSNAM='SIGW'//CM
CALL LCMLEN(KPEDIT,CXSNAM,ILCMLN,ILCMTY)
IF(ILCMLN.EQ.NMERGE) THEN
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6002) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,SCATTS(1,IGR,IGR,IL),
> OLDRAT)
ENDIF
134 CONTINUE
IF(ILEAKS.EQ.3) THEN
CXSNAM='DIFFX'
CALL LCMLEN(KPEDIT,CXSNAM,ILCMLN,ILCMTY)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+10),OLDRAT)
ENDIF
CXSNAM='DIFFY'
CALL LCMLEN(KPEDIT,CXSNAM,ILCMLN,ILCMTY)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+11),OLDRAT)
ENDIF
CXSNAM='DIFFZ'
CALL LCMLEN(KPEDIT,CXSNAM,ILCMLN,ILCMTY)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+12),OLDRAT)
ENDIF
ENDIF
CXSNAM='DIFF'
CALL LCMLEN(KPEDIT,CXSNAM,ILCMLN,ILCMTY)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+5),OLDRAT)
ENDIF
ENDIF
ELSE IF(NSTATS.EQ.-1) THEN
ITYPE=3
CXSNAM='NTOT0'
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,1),OLDRAT)
CXSNAM='ABS'
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+2),OLDRAT)
IF(IDATA(4).EQ.1) THEN
CXSNAM='NUSIGF'
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+3),OLDRAT)
ENDIF
IF(ILEAKS.EQ.3) THEN
CXSNAM='DIFFX'
CALL LCMLEN(KPEDIT,CXSNAM,ILCMLN,ILCMTY)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+10),OLDRAT)
ENDIF
CXSNAM='DIFFY'
CALL LCMLEN(KPEDIT,CXSNAM,ILCMLN,ILCMTY)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,14),OLDRAT)
ENDIF
CXSNAM='DIFFZ'
CALL LCMLEN(KPEDIT,CXSNAM,ILCMLN,ILCMTY)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,15),OLDRAT)
ENDIF
ENDIF
CXSNAM='DIFF'
CALL LCMLEN(KPEDIT,CXSNAM,ILCMLN,ILCMTY)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+5),OLDRAT)
ENDIF
CXSNAM='TRANC'
CALL LCMLEN(KPEDIT,CXSNAM,ILCMLN,ILCMTY)
IF(ILCMLN.GT.0) THEN
CALL LCMGET(KPEDIT,CXSNAM,OLDRAT)
WRITE(IUNOUT,6003) CXSNAM
CALL EDISTA(IPRINT,NMERGE,ITYPE,VOLMER,SOUREL,VOLT2,
> FLXNEW(1),FLXOLD,RATECM(1,IGR,NW+9),OLDRAT)
ENDIF
DO 135 IL=1,NL
WRITE (CM,'(I2.2)') IL-1
CALL LCMLEN(KPEDIT,'NJJS'//CM,ILCMLN,ILCMTY)
CXSNAM='SCATTERING'//CM
IF(ILCMLN.EQ.NMERGE) THEN
WRITE(IUNOUT,6003) CXSNAM
CALL LCMGET(KPEDIT,'NJJS'//CM,INGSCT)
CALL LCMGET(KPEDIT,'IJJS'//CM,IFGSCT)
CALL LCMGET(KPEDIT,'IPOS'//CM,IPOSCT)
CALL LCMGET(KPEDIT,'SCAT'//CM,XSCAT)
CALL EDIDEL(IPRINT,NGCOND,NMERGE,IGR,SCATTS(1,1,1,IL),
> INGSCT,IFGSCT,IPOSCT,XSCAT,DELSC)
ENDIF
135 CONTINUE
ENDIF
210 CONTINUE
CALL LCMSIX(IPEDIT,' ',ILCMDN)
CALL LCMSIX(IPEDIT,' ',ILCMDN)
IF(NSTATS.EQ.-1) THEN
DEALLOCATE(DELSC,XSCAT)
DEALLOCATE(IPOSCT,IFGSCT,INGSCT)
ENDIF
*----
* SCRATCH STORAGE DEALLOCATION
*----
DEALLOCATE(OLDRAT,FLXOLD,FLXNEW)
RETURN
*----
* FORMAT
*----
7000 FORMAT(' ****** EDIDST WARNING ',
>'ROUTINE ******'/' ****** ',A12,' REFERENCE EXECUTION',
>' DIRECTORY NOT ON LCM ******'/'************************',
>'**********************************************')
7001 FORMAT(' ****** EDIDST WARNING ',
>'ROUTINE ******'/' ****** NUMBER OF REGION OR NUMBER OF ',
>'GROUP INCONSISTENT ******'/
>6X,I10,' CURRENT REGIONS'/6X,I10,' OLD REGIONS'/6X,I10,' CURRENT',
>' GROUPS'/6X,I10,' OLD GROUPS'/'************************',
>'**********************************************')
7002 FORMAT(' ****** EDIDST WARNING ',
>'ROUTINE ******'/' ****** RELATIVE ERROR IN VOLUME: CURRENT ',
>'TO REFERENCE TOO LARGE ******'/
>6X,' CURRENT VOLUME/REFERENCE VOLUME =',1P,E12.4/
>6X,' REGION NUMERO =',I10/6X,' RELATIVE ERROR =',E12.4/
>6X,' ERROR ALLOWED =',E12.4/'************************',
>'**********************************************')
7004 FORMAT(' ****** EDIDST WARNING ',
>'ROUTINE ******'/' ****** AVERAGE ABSOLUTE ERROR ON LETHARGY',
>' WIDTH TOO LARGE ******'/6X,' RELATIVE ERROR =',E12.4/
>6X,' ERROR ALLOWED =',E12.4/'************************',
>'**********************************************')
7005 FORMAT(' ************** EDIDST WARNING **************',/
> ' TOTAL NEW AND/OR OLD SOURCE IS 0.0 ',/
> ' RELATIVE SOURCE NORMALIZATION FACTOR SET TO 1.0',/
> '************************************************')
6000 FORMAT(///20X,'D R A G O N S T A T I S T I C S'/
>10X,'LCM REFERENCE CASE NAME : ',A12/
>10X,'NUMBER OF GROUPS : ',I10/
>10X,'NUMBER OF REGIONS : ',I10/
>10X,'RELATIVE VOLUMES : ',1P,E12.4/
>10X,'RELATIVE SOURCES : ',1P,E12.4)
6001 FORMAT(/' ANALYSIS OF GROUP : ',I5)
6002 FORMAT(/' STATISTICS FOR : ',A12)
6003 FORMAT(/' DELTA SIGMA FOR : ',A12)
6010 FORMAT(/
>10X,'REFERENCE Keff : ',F15.5/
>10X,'CURRENT Keff : ',F15.5/
>10X,'CHANGE IN Keff : ',3X,F12.2,' mk')
6011 FORMAT(1P/
>10X,'REFERENCE B2 : ',E15.3/
>10X,'CURRENT B2 : ',E15.3/
>10X,'CHANGE IN B2 : ',E15.3)
END
|
