Hi,
I have just started to use Vegas for numerical integration and I've found a problem that I can't get rid of...
I'm trying, kust for test, to integrate a naive function, say x**2.
The main function of my program and the vegas function are here in the post.
My problem is the following: with the main and the vegas listed under everithing is working fine, the output are a correct number of iteration with the correct number of calls.
The seed used from the vegas looks like 0, and I found this by putting a print*,iseed just before the end statement at the last line of the subroutine vegas
But if I try to change the seed used in the vegas algorithm, that is to declare my one seed, so if after ncall=1000 i put another declaration like iseed=617647 for example the vegas looks like is stopping after one iteration, and doesn't keep on integrating. The result for that iteration looks correct (is 0.33) but the total result is zero..I can't figure out why, I've tried everything... Can someone help me?
Thanks in advance
**************
*** MAIN ****
**************
program test
implicit real*8 (a-h,o-z)
external fxn
COMMON/BVEG1/NCALL,ITMX,NPRN,NDEV,XL(100),XU(100),ACC
COMMON/BVEG2/IT,NDO,SI,SWGT,SCHI,XI(50,100)
COMMON/BVEG3/ALPH,NDMX,MDS
COMMON/RNDM/ISEED
ndim=1
ncall=1000
itmx=1
nprn=0
acc=1.0d-12
xl(1)=0.0
xu(1)=1.0
call VEGAS(NDIM,FXN,AVGI,SD,CHI2A)
end
function fxn(x,wgt)
implicit real*8 (a-h,o-z)
double precision x(100)
fxn=x(1)**2
return
end
**************
** VEGAS ***
**************
C START VEGAS SECTION
C
BLOCK DATA
IMPLICIT DOUBLE PRECISION(A-H,O-Z)
C MAKES DEFAULT PARAMETER ASSIGNMENTS FOR VEGAS
COMMON/BVEG1/NCALL,ITMX,NPRN,NDEV,XL(100),XU(100),ACC
COMMON/BVEG2/IT,NDO,SI,SWGT,SCHI,XI(50,100)
COMMON/BVEG3/ALPH,NDMX,MDS
DATA NCALL/1000/,ITMX/10/,NPRN/0/,ACC/1.D-2/,
1 XL/100*0.d0/,XU/100*1.d0/,
3 ALPH/1.5d0/,NDMX/50/,MDS/1/,NDEV/6/,
4 NDO/1/,XI/5000*1.d0/,IT/0/,SI,SWGT,SCHI/3*0.d0/
END
SUBROUTINE VEGAS(NDIM,FXN,AVGI,SD,CHI2A)
C
C SUBROUTINE PERFORMS NDIM-DIMENSIONAL MONTE CARLO INTEG'N
C - BY G.P. LEPAGE SEPT 1976/(REV)AUG 1979
C - ALGORITHM DESCRIBED IN J COMP PHYS 27,192(1978)
C
IMPLICIT DOUBLE PRECISION(A-H,O-Z)
COMMON/BVEG1/NCALL,ITMX,NPRN,NDEV,XL(100),XU(100),ACC
COMMON/BVEG2/IT,NDO,SI,SWGT,SCHI,XI(50,100)
COMMON/BVEG3/ALPH,NDMX,MDS
COMMON/BVEG4/CALLS,TI,TSI
COMMON/RESLOCAL/RESL(20),STANDDEVL(20)
DIMENSION D(50,100),DI(50,100),XIN(50),R(50),DX(100),IA(100),
1 KG(100),DT(100),X(100)
DIMENSION RAND(100)
DATA ONE/1.d0/
C
NDO=1
DO 1 J=1,NDIM
1 XI(1,J)=ONE
C
ENTRY VEGAS1(NDIM,FXN,AVGI,SD,CHI2A)
C INITIALIZES CUMMULATIVE VARIABLES, BUT NOT GRID
IT=0
SI=0.d0
SWGT=SI
SCHI=SI
C
ENTRY VEGAS2(NDIM,FXN,AVGI,SD,CHI2A)
C - NO INITIALIZATION
ND=NDMX
NG=1
IF(MDS.EQ.0) GO TO 2
NG=(NCALL/2.d0)**(1.d0/NDIM)
MDS=-1
IF((2*NG-NDMX).LT.0) GO TO 2
MDS=1
NPG=NG/NDMX+1
ND=NG/NPG
NG=NPG*ND
2 K=NG**NDIM
NPG=NCALL/K
IF(NPG.LT.2) NPG=2
CALLS=NPG*K
DXG=ONE/NG
DV2G=(CALLS*DXG**NDIM)**2/NPG/NPG/(NPG-ONE)
XND=ND
NDM=ND-1
DXG=DXG*XND
XJAC=ONE/CALLS
DO 3 J=1,NDIM
DX(J)=XU(J)-XL(J)
3 XJAC=XJAC*DX(J)
C
C REBIN, PRESERVING BIN DENSITY
IF(ND.EQ.NDO) GO TO 8
RC=NDO/XND
DO 7 J=1,NDIM
K=0
XN=0.d0
DR=XN
I=K
4 K=K+1
DR=DR+ONE
XO=XN
XN=XI(K,J)
5 IF(RC.GT.DR) GO TO 4
I=I+1
DR=DR-RC
XIN(I)=XN-(XN-XO)*DR
IF(I.LT.NDM) GO TO 5
DO 6 I=1,NDM
6 XI(I,J)=XIN(I)
7 XI(ND,J)=ONE
NDO=ND
C
8 IF(NPRN.GE.0) WRITE(NDEV,200) NDIM,CALLS,IT,ITMX,ACC,NPRN,
1 ALPH,MDS,ND,(XL(J),XU(J),J=1,NDIM)
C
ENTRY VEGAS3(NDIM,FXN,AVGI,SD,CHI2A)
C - MAIN INTEGRATION LOOP
9 IT=IT+1
TI=0.d0
TSI=TI
DO 10 J=1,NDIM
KG(J)=1
DO 10 I=1,ND
D(I,J)=TI
10 DI(I,J)=TI
C
11 FB=0.d0
F2B=FB
K=0
12 K=K+1
CALL RANDA(NDIM,RAND)
WGT=XJAC
DO 15 J=1,NDIM
XN=(KG(J)-RAND(J))*DXG+ONE
IA(J)=XN
IF(IA(J).GT.1) GO TO 13
XO=XI(IA(J),J)
RC=(XN-IA(J))*XO
GO TO 14
13 XO=XI(IA(J),J)-XI(IA(J)-1,J)
RC=XI(IA(J)-1,J)+(XN-IA(J))*XO
14 X(J)=XL(J)+RC*DX(J)
15 WGT=WGT*XO*XND
C
F=WGT
F=F*FXN(X,WGT)
F2=F*F
FB=FB+F
F2B=F2B+F2
DO 16 J=1,NDIM
DI(IA(J),J)=DI(IA(J),J)+F
16 IF(MDS.GE.0) D(IA(J),J)=D(IA(J),J)+F2
IF(K.LT.NPG) GO TO 12
C
F2B=SQRT(F2B*NPG)
F2B=(F2B-FB)*(F2B+FB)
TI=TI+FB
TSI=TSI+F2B
IF(MDS.GE.0) GO TO 18
DO 17 J=1,NDIM
17 D(IA(J),J)=D(IA(J),J)+F2B
18 K=NDIM
19 KG(K)=MOD(KG(K),NG)+1
IF(KG(K).NE.1) GO TO 11
K=K-1
IF(K.GT.0) GO TO 19
C
C COMPUTE FINAL RESULTS FOR THIS ITERATION
TSI=TSI*DV2G
TI2=TI*TI
CCCCCCCCCCCCCCCCC MODIFICA 1: PERMETTE INTEGRALE NULLO CCCCCCCCCCCCCCCC`
C
IF(TSI.EQ.0.) THEN
WGT=0.d0
SI=0.d0
SWGT=0.d0
SCHI=0.d0
AVGI=0.d0
CHI2A=0.d0
SD=0.d0
IF(NPRN.LT.0) THEN
CONTINUE
ELSE
TSI=SQRT(TSI)
WRITE(NDEV,201) IT,TI,TSI,AVGI,SD,CHI2A
IF(NPRN.EQ.0) THEN
CONTINUE
ELSE
DO J=1,NDIM
WRITE(NDEV,202) J,(XI(I,J),DI(I,J),I=1,ND,NPRN)
END DO
END IF
END IF
RETURN
END IF
C
CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC`
C
C PROTECT AGAINST ACCIDENTAL SINGLE PRECISION NEGATIVE VALUES
XXX=TSI/TI**2
IF(XXX.GT.-1.D-4) F2B=ABS(F2B)
WGT=ONE/TSI
SI=SI+TI*WGT
SWGT=SWGT+WGT
SCHI=SCHI+TI2*WGT
AVGI=SI/SWGT
CHI2A=(SCHI-SI*AVGI)/(IT-.9999d0)
SD=SQRT(ONE/SWGT)
C
IF(NPRN.LT.0) GO TO 21
TSI=SQRT(TSI)
WRITE(NDEV,201) IT,TI,TSI,AVGI,SD,CHI2A
RESL(IT)=TI
STANDDEVL(IT)=TSI
IF(NPRN.EQ.0) GO TO 21
DO 20 J=1,NDIM
20 WRITE(NDEV,202) J,(XI(I,J),DI(I,J),I=1,ND,NPRN)
C
C REFINE GRID
21 DO 23 J=1,NDIM
XO=D(1,J)
XN=D(2,J)
D(1,J)=(XO+XN)/2.d0
DT(J)=D(1,J)
DO 22 I=2,NDM
D(I,J)=XO+XN
XO=XN
XN=D(I+1,J)
D(I,J)=(D(I,J)+XN)/3.d0
22 DT(J)=DT(J)+D(I,J)
D(ND,J)=(XN+XO)/2.d0
23 DT(J)=DT(J)+D(ND,J)
C
DO 28 J=1,NDIM
RC=0.d0
DO 24 I=1,ND
R(I)=0.d0
IF(D(I,J).LE.0.d0) GO TO 24
XO=DT(J)/D(I,J)
R(I)=((XO-ONE)/XO/LOG(XO))**ALPH
24 RC=RC+R(I)
RC=RC/XND
K=0
XN=0.d0
DR=XN
I=K
25 K=K+1
DR=DR+R(K)
XO=XN
XN=XI(K,J)
26 IF(RC.GT.DR) GO TO 25
I=I+1
DR=DR-RC
XIN(I)=XN-(XN-XO)*DR/R(K)
IF(I.LT.NDM) GO TO 26
DO 27 I=1,NDM
27 XI(I,J)=XIN(I)
28 XI(ND,J)=ONE
C
IF(IT.LT.ITMX.AND.ACC*ABS(AVGI).LT.SD) GO TO 9
200 FORMAT(/35H INPUT PARAMETERS FOR VEGAS: NDIM=,I3,8H NCALL=,F8.0
1 /28X,5H IT=,I5,7H ITMX=,I5/28X,6H ACC=,G9.3
2 /28X,7H NPRN=,I3,7H ALPH=,F5.2/28X,6H MDS=,I3,6H ND=,I4
3 /28X,10H (XL,XU)=,(T40,2H( ,G12.6,3H , ,G12.6,2H )))
201 FORMAT(///21H INTEGRATION BY VEGAS//14H ITERATION NO.,I3,
1 14H: INTEGRAL =,G14.8/21X,10HSTD DEV =,G10.4/
2 34H ACCUMULATED RESULTS: INTEGRAL =,G14.8/
3 24X,10HSTD DEV =,G10.4/24X,17HCHI**2 PER IT'N =,G10.4)
202 FORMAT(/15H DATA FOR AXIS ,I2/25H X DELTA I ,
1 24H X DELTA I ,18H X DELTA I
2 /(1H ,F7.6,1X,G11.4,5X,F7.6,1X,G11.4,5X,F7.6,1X,G11.4))
RETURN
END
C***************************************************************
C LOAD VEGAS DATA IF DESIRED
SUBROUTINE LOAD_VEGAS(NDIM,NAME)
IMPLICIT DOUBLE PRECISION(A-H,O-Z)
COMMON/BVEG2/IT,NDO,SI,SWGT,SCHI,XI(50,100)
CHARACTER*30 NAME
C OPEN(UNIT=13,FILE=NAME,STATUS='OLD',SHARED)
READ(13,210) IT,NDO,SI,SWGT,SCHI
DO 190 J=1,NDIM
190 READ(13,*) (XI(I,J),I=1,50)
210 FORMAT(2I8,3Z16)
CLOSE(UNIT=13)
RETURN
END
C*******************************************************************
C STORE VEGAS DATA FOR POSSIBLE LATER USE
SUBROUTINE STORE_VEGAS(NDIM,NAME)
IMPLICIT DOUBLE PRECISION(A-H,O-Z)
COMMON/BVEG2/IT,NDO,SI,SWGT,SCHI,XI(50,100)
CHARACTER*30 NAME
OPEN(UNIT=12,FILE=NAME,STATUS='NEW')
WRITE(12,210) IT,NDO,SI,SWGT,SCHI
DO 190 J=1,NDIM
190 WRITE(12,*) (XI(I,J),I=1,50)
210 FORMAT(2I8,3Z16)
CLOSE(UNIT=12)
RETURN
END
SUBROUTINE RANDA(N,RAND)
C
C SUBROUTINE GENERATES UNIFORMLY DISTRIBUTED RANDOM NO'S X(I),I=1,N
IMPLICIT DOUBLE PRECISION(A-H,O-Z)
COMMON/RNDM/ISEED
DIMENSION RAND(N)
DO 1 I=1,N
1 RAND(I)=RAN(ISEED)
RETURN
END
C--------- END THE VEGAS SECTION -------------------------------------
I have just started to use Vegas for numerical integration and I've found a problem that I can't get rid of...
I'm trying, kust for test, to integrate a naive function, say x**2.
The main function of my program and the vegas function are here in the post.
My problem is the following: with the main and the vegas listed under everithing is working fine, the output are a correct number of iteration with the correct number of calls.
The seed used from the vegas looks like 0, and I found this by putting a print*,iseed just before the end statement at the last line of the subroutine vegas
But if I try to change the seed used in the vegas algorithm, that is to declare my one seed, so if after ncall=1000 i put another declaration like iseed=617647 for example the vegas looks like is stopping after one iteration, and doesn't keep on integrating. The result for that iteration looks correct (is 0.33) but the total result is zero..I can't figure out why, I've tried everything... Can someone help me?
Thanks in advance
**************
*** MAIN ****
**************
program test
implicit real*8 (a-h,o-z)
external fxn
COMMON/BVEG1/NCALL,ITMX,NPRN,NDEV,XL(100),XU(100),ACC
COMMON/BVEG2/IT,NDO,SI,SWGT,SCHI,XI(50,100)
COMMON/BVEG3/ALPH,NDMX,MDS
COMMON/RNDM/ISEED
ndim=1
ncall=1000
itmx=1
nprn=0
acc=1.0d-12
xl(1)=0.0
xu(1)=1.0
call VEGAS(NDIM,FXN,AVGI,SD,CHI2A)
end
function fxn(x,wgt)
implicit real*8 (a-h,o-z)
double precision x(100)
fxn=x(1)**2
return
end
**************
** VEGAS ***
**************
C START VEGAS SECTION
C
BLOCK DATA
IMPLICIT DOUBLE PRECISION(A-H,O-Z)
C MAKES DEFAULT PARAMETER ASSIGNMENTS FOR VEGAS
COMMON/BVEG1/NCALL,ITMX,NPRN,NDEV,XL(100),XU(100),ACC
COMMON/BVEG2/IT,NDO,SI,SWGT,SCHI,XI(50,100)
COMMON/BVEG3/ALPH,NDMX,MDS
DATA NCALL/1000/,ITMX/10/,NPRN/0/,ACC/1.D-2/,
1 XL/100*0.d0/,XU/100*1.d0/,
3 ALPH/1.5d0/,NDMX/50/,MDS/1/,NDEV/6/,
4 NDO/1/,XI/5000*1.d0/,IT/0/,SI,SWGT,SCHI/3*0.d0/
END
SUBROUTINE VEGAS(NDIM,FXN,AVGI,SD,CHI2A)
C
C SUBROUTINE PERFORMS NDIM-DIMENSIONAL MONTE CARLO INTEG'N
C - BY G.P. LEPAGE SEPT 1976/(REV)AUG 1979
C - ALGORITHM DESCRIBED IN J COMP PHYS 27,192(1978)
C
IMPLICIT DOUBLE PRECISION(A-H,O-Z)
COMMON/BVEG1/NCALL,ITMX,NPRN,NDEV,XL(100),XU(100),ACC
COMMON/BVEG2/IT,NDO,SI,SWGT,SCHI,XI(50,100)
COMMON/BVEG3/ALPH,NDMX,MDS
COMMON/BVEG4/CALLS,TI,TSI
COMMON/RESLOCAL/RESL(20),STANDDEVL(20)
DIMENSION D(50,100),DI(50,100),XIN(50),R(50),DX(100),IA(100),
1 KG(100),DT(100),X(100)
DIMENSION RAND(100)
DATA ONE/1.d0/
C
NDO=1
DO 1 J=1,NDIM
1 XI(1,J)=ONE
C
ENTRY VEGAS1(NDIM,FXN,AVGI,SD,CHI2A)
C INITIALIZES CUMMULATIVE VARIABLES, BUT NOT GRID
IT=0
SI=0.d0
SWGT=SI
SCHI=SI
C
ENTRY VEGAS2(NDIM,FXN,AVGI,SD,CHI2A)
C - NO INITIALIZATION
ND=NDMX
NG=1
IF(MDS.EQ.0) GO TO 2
NG=(NCALL/2.d0)**(1.d0/NDIM)
MDS=-1
IF((2*NG-NDMX).LT.0) GO TO 2
MDS=1
NPG=NG/NDMX+1
ND=NG/NPG
NG=NPG*ND
2 K=NG**NDIM
NPG=NCALL/K
IF(NPG.LT.2) NPG=2
CALLS=NPG*K
DXG=ONE/NG
DV2G=(CALLS*DXG**NDIM)**2/NPG/NPG/(NPG-ONE)
XND=ND
NDM=ND-1
DXG=DXG*XND
XJAC=ONE/CALLS
DO 3 J=1,NDIM
DX(J)=XU(J)-XL(J)
3 XJAC=XJAC*DX(J)
C
C REBIN, PRESERVING BIN DENSITY
IF(ND.EQ.NDO) GO TO 8
RC=NDO/XND
DO 7 J=1,NDIM
K=0
XN=0.d0
DR=XN
I=K
4 K=K+1
DR=DR+ONE
XO=XN
XN=XI(K,J)
5 IF(RC.GT.DR) GO TO 4
I=I+1
DR=DR-RC
XIN(I)=XN-(XN-XO)*DR
IF(I.LT.NDM) GO TO 5
DO 6 I=1,NDM
6 XI(I,J)=XIN(I)
7 XI(ND,J)=ONE
NDO=ND
C
8 IF(NPRN.GE.0) WRITE(NDEV,200) NDIM,CALLS,IT,ITMX,ACC,NPRN,
1 ALPH,MDS,ND,(XL(J),XU(J),J=1,NDIM)
C
ENTRY VEGAS3(NDIM,FXN,AVGI,SD,CHI2A)
C - MAIN INTEGRATION LOOP
9 IT=IT+1
TI=0.d0
TSI=TI
DO 10 J=1,NDIM
KG(J)=1
DO 10 I=1,ND
D(I,J)=TI
10 DI(I,J)=TI
C
11 FB=0.d0
F2B=FB
K=0
12 K=K+1
CALL RANDA(NDIM,RAND)
WGT=XJAC
DO 15 J=1,NDIM
XN=(KG(J)-RAND(J))*DXG+ONE
IA(J)=XN
IF(IA(J).GT.1) GO TO 13
XO=XI(IA(J),J)
RC=(XN-IA(J))*XO
GO TO 14
13 XO=XI(IA(J),J)-XI(IA(J)-1,J)
RC=XI(IA(J)-1,J)+(XN-IA(J))*XO
14 X(J)=XL(J)+RC*DX(J)
15 WGT=WGT*XO*XND
C
F=WGT
F=F*FXN(X,WGT)
F2=F*F
FB=FB+F
F2B=F2B+F2
DO 16 J=1,NDIM
DI(IA(J),J)=DI(IA(J),J)+F
16 IF(MDS.GE.0) D(IA(J),J)=D(IA(J),J)+F2
IF(K.LT.NPG) GO TO 12
C
F2B=SQRT(F2B*NPG)
F2B=(F2B-FB)*(F2B+FB)
TI=TI+FB
TSI=TSI+F2B
IF(MDS.GE.0) GO TO 18
DO 17 J=1,NDIM
17 D(IA(J),J)=D(IA(J),J)+F2B
18 K=NDIM
19 KG(K)=MOD(KG(K),NG)+1
IF(KG(K).NE.1) GO TO 11
K=K-1
IF(K.GT.0) GO TO 19
C
C COMPUTE FINAL RESULTS FOR THIS ITERATION
TSI=TSI*DV2G
TI2=TI*TI
CCCCCCCCCCCCCCCCC MODIFICA 1: PERMETTE INTEGRALE NULLO CCCCCCCCCCCCCCCC`
C
IF(TSI.EQ.0.) THEN
WGT=0.d0
SI=0.d0
SWGT=0.d0
SCHI=0.d0
AVGI=0.d0
CHI2A=0.d0
SD=0.d0
IF(NPRN.LT.0) THEN
CONTINUE
ELSE
TSI=SQRT(TSI)
WRITE(NDEV,201) IT,TI,TSI,AVGI,SD,CHI2A
IF(NPRN.EQ.0) THEN
CONTINUE
ELSE
DO J=1,NDIM
WRITE(NDEV,202) J,(XI(I,J),DI(I,J),I=1,ND,NPRN)
END DO
END IF
END IF
RETURN
END IF
C
CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC`
C
C PROTECT AGAINST ACCIDENTAL SINGLE PRECISION NEGATIVE VALUES
XXX=TSI/TI**2
IF(XXX.GT.-1.D-4) F2B=ABS(F2B)
WGT=ONE/TSI
SI=SI+TI*WGT
SWGT=SWGT+WGT
SCHI=SCHI+TI2*WGT
AVGI=SI/SWGT
CHI2A=(SCHI-SI*AVGI)/(IT-.9999d0)
SD=SQRT(ONE/SWGT)
C
IF(NPRN.LT.0) GO TO 21
TSI=SQRT(TSI)
WRITE(NDEV,201) IT,TI,TSI,AVGI,SD,CHI2A
RESL(IT)=TI
STANDDEVL(IT)=TSI
IF(NPRN.EQ.0) GO TO 21
DO 20 J=1,NDIM
20 WRITE(NDEV,202) J,(XI(I,J),DI(I,J),I=1,ND,NPRN)
C
C REFINE GRID
21 DO 23 J=1,NDIM
XO=D(1,J)
XN=D(2,J)
D(1,J)=(XO+XN)/2.d0
DT(J)=D(1,J)
DO 22 I=2,NDM
D(I,J)=XO+XN
XO=XN
XN=D(I+1,J)
D(I,J)=(D(I,J)+XN)/3.d0
22 DT(J)=DT(J)+D(I,J)
D(ND,J)=(XN+XO)/2.d0
23 DT(J)=DT(J)+D(ND,J)
C
DO 28 J=1,NDIM
RC=0.d0
DO 24 I=1,ND
R(I)=0.d0
IF(D(I,J).LE.0.d0) GO TO 24
XO=DT(J)/D(I,J)
R(I)=((XO-ONE)/XO/LOG(XO))**ALPH
24 RC=RC+R(I)
RC=RC/XND
K=0
XN=0.d0
DR=XN
I=K
25 K=K+1
DR=DR+R(K)
XO=XN
XN=XI(K,J)
26 IF(RC.GT.DR) GO TO 25
I=I+1
DR=DR-RC
XIN(I)=XN-(XN-XO)*DR/R(K)
IF(I.LT.NDM) GO TO 26
DO 27 I=1,NDM
27 XI(I,J)=XIN(I)
28 XI(ND,J)=ONE
C
IF(IT.LT.ITMX.AND.ACC*ABS(AVGI).LT.SD) GO TO 9
200 FORMAT(/35H INPUT PARAMETERS FOR VEGAS: NDIM=,I3,8H NCALL=,F8.0
1 /28X,5H IT=,I5,7H ITMX=,I5/28X,6H ACC=,G9.3
2 /28X,7H NPRN=,I3,7H ALPH=,F5.2/28X,6H MDS=,I3,6H ND=,I4
3 /28X,10H (XL,XU)=,(T40,2H( ,G12.6,3H , ,G12.6,2H )))
201 FORMAT(///21H INTEGRATION BY VEGAS//14H ITERATION NO.,I3,
1 14H: INTEGRAL =,G14.8/21X,10HSTD DEV =,G10.4/
2 34H ACCUMULATED RESULTS: INTEGRAL =,G14.8/
3 24X,10HSTD DEV =,G10.4/24X,17HCHI**2 PER IT'N =,G10.4)
202 FORMAT(/15H DATA FOR AXIS ,I2/25H X DELTA I ,
1 24H X DELTA I ,18H X DELTA I
2 /(1H ,F7.6,1X,G11.4,5X,F7.6,1X,G11.4,5X,F7.6,1X,G11.4))
RETURN
END
C***************************************************************
C LOAD VEGAS DATA IF DESIRED
SUBROUTINE LOAD_VEGAS(NDIM,NAME)
IMPLICIT DOUBLE PRECISION(A-H,O-Z)
COMMON/BVEG2/IT,NDO,SI,SWGT,SCHI,XI(50,100)
CHARACTER*30 NAME
C OPEN(UNIT=13,FILE=NAME,STATUS='OLD',SHARED)
READ(13,210) IT,NDO,SI,SWGT,SCHI
DO 190 J=1,NDIM
190 READ(13,*) (XI(I,J),I=1,50)
210 FORMAT(2I8,3Z16)
CLOSE(UNIT=13)
RETURN
END
C*******************************************************************
C STORE VEGAS DATA FOR POSSIBLE LATER USE
SUBROUTINE STORE_VEGAS(NDIM,NAME)
IMPLICIT DOUBLE PRECISION(A-H,O-Z)
COMMON/BVEG2/IT,NDO,SI,SWGT,SCHI,XI(50,100)
CHARACTER*30 NAME
OPEN(UNIT=12,FILE=NAME,STATUS='NEW')
WRITE(12,210) IT,NDO,SI,SWGT,SCHI
DO 190 J=1,NDIM
190 WRITE(12,*) (XI(I,J),I=1,50)
210 FORMAT(2I8,3Z16)
CLOSE(UNIT=12)
RETURN
END
SUBROUTINE RANDA(N,RAND)
C
C SUBROUTINE GENERATES UNIFORMLY DISTRIBUTED RANDOM NO'S X(I),I=1,N
IMPLICIT DOUBLE PRECISION(A-H,O-Z)
COMMON/RNDM/ISEED
DIMENSION RAND(N)
DO 1 I=1,N
1 RAND(I)=RAN(ISEED)
RETURN
END
C--------- END THE VEGAS SECTION -------------------------------------
