I'm running a program in Fortran that does a lot of calculations. Basically, it runs a few calculating cycles as many times as there are particles in the experiment.

I have been able to successfully test and obtain output data for 500 000, 1 000 000 and 1 500 000 particles, but as soon as I run the program with more input particles (say, 2 000 000 or 5 000 000), it crashes closer to the end stating an 'End of File' error in on the files it's reading. Reading files mentioned is a necessity for the calculations I'm carrying out and program does this operation in every cycle.

What's concerning me is how is the program able to accurately do all the calculations 1 500 000 times, but not 2 000 000? Is there any limitation in fortran code that makes program unstable while performing extensive calculations?

The fact that the program works for any number of particles below certain amount suggests that everything should be in order. The files are rewinded at the end of read operation and so on. How can I determine the problem?

Thank you.

Update: Okay, I'm attaching the code so people could view it and hope that someone would help me out. This is the second calculating cycle (the first one shows no errors even when counting immense ammounts of particles).

```
NSTAT = 0
NSTAP = int(NSTATN/10)
NDSTAT = NSTAP ! Number STAT for visualisation
10 continue
NSTAT=NSTAT+1
x = 50.*sqrt(RNDM(IY))
y = 0.
z = 1.E-20
ct = 1. ! initial state photon
st = sqrt(1.-ct*ct)
cf = 1.
sf = 0.
ves = 1.
E = YNT2001()
Call FGAMMA() ! -> calculation of penetration photons
!** zahler
IF(NSTAT.GE.NDSTAT) GO TO 15
GO TO 11
15 PRINT*, NSTAT
IAWA = NSTAT*100/NSTATN
WRITE (TEXTW,103) IAWA
PRINT*, TEXTW ! print STAT
NDSTAT=NDSTAT+NSTAP
11 IF(NSTAT.GE.NSTATN) GO TO 20
GO TO 10
!** zahler
20 call RESULT ! Results of Calculation
```

This part here chooses random starting Energy and processes the calculation as well as showing the progress in output window (zahler). Let's trace the calculation further. FGAMMA:

```
SUBROUTINE FGAMMA()
COMMON /SOS/ E,X,Y,Z,CT,ST,CF,SF,W
COMMON /RMX/ Rmax,Rkmax
COMMON/OTC/ GOTC,WOTC
COMMON /ktt/ ktot,kcom,kpho,kpar
COMMON /RES/ VS,VSI,TD
COMMON /wpp/ Wp
COMMON /w51/ w511,IP
VS = 0.
VSI = 0.
ktot = 1;kcom = 1;kpho = 1;kpar = 1
CALL SIG_phots(E,Stots,SSKs,SSFs,SSPs)
if(ct > 0.) then
dl = (Rmax - z)/ct
else
dl = - z/ct
endif
sss = dl*Stots
WFZ = 1- exp(-sss) ! Wes wzaimodeystwiy
RN = RNDM(IY)
IF(RN <= 0.) RN=1.E-4
DLPR = - LOG(1.-RN*WFZ)/Stots ! probeg of photon
1 Z=Z+DLPR*CT
RR=DLPR*ST
X=X+RR*CF ! new coordianats of photon
Y=Y+RR*SF
100 continue
!*************** para ****************************
If(E > 1.022) then
Wp= SSPs/STOTs*W*WFZ ! Probabilaty of paar creation
IP = 1
GP = GOTC
GOTC = 0.06
CALL BLAN() !!!!!!!!!!!!!! WKLAD of effekt
GOTC = GP
endif
!************** compton **************************
W= SSKs/STOTs*W*WFZ ! Probabilaty of Compton creation
IP = 0
CALL BLPS() !!!!!!!!!!!!!!WKLAD Local Estimation
EP = E
CALL COMKL3(Ep,E)
IF(E.LT.GOTC) RETURN
!NEXT COLLISIONS
ktot = 1;kcom = 1;kpho = 1;kpar = 1
CALL SIG_phots(E,Stots,SSKs,SSFs,SSPs)
if(ct > 0.) then
dl = (Rmax - z)/ct
else
dl = - z/ct
endif
sss = dl*Stots
WFZ = 1- exp(-sss) ! Wes wzaimodeystwiy
RN = RNDM(IY)
IF(RN <= 0.) RN=1.E-4
DLPR = - LOG(1.-RN*WFZ)/Stots
Z=Z+DLPR*CT
RR=DLPR*ST
X=X+RR*CF
Y=Y+RR*SF
GO TO 100
END
```

As we can see, there are more subroutines here. I'm providing them as well.

```
SUBROUTINE BLAN()
COMMON /SOS/ E,X,Y,Z,CT,ST,CF,SF,VES
COMMON /DET/ XDET,YDET,ZDET
COMMON /RES/ VS,VSI,TD
COMMON /OTC/ GOTC,WOTC
COMMON /A511/ S511s
COMMON /RMX/ Rmax,Rkmax
COMMON /ktt/ ktot,kcom,kpho,kpar
COMMON /wpp/ Wp
COMMON /w51/ w511,IP
TW=E
XW=X
YW=Y
ZW=Z
COSTW=CT !Memory 1 photon
SINTW=ST
COSFW=CF
SINFW=SF
VESW=VES
ves = wp
XD=XDET-X
YD=YDET-Y
ZD=ZDET-Z
DW = SQRT(XD*XD+YD*YD+ZD*ZD)
DWW = 1./DW
AL2=(XDET-X)*DWW
AM2=(YDET-Y)*DWW
AN2=(ZDET-Z)*DWW
if(ZDET > 0.) then
DWZ = (Rmax-Z)/AN2
else
DWZ = -Z/AN2
endif
!+++++++++++++++++++++++++++++++++++++++++++ RANGE IN MATTER
CT = AN2
if(CT > 1. ) CT = 1.
if(CT < -1.) CT = -1.
ST = SQRT(1.-CT*CT)
IF(ST.LE.0.) THEN
CF = 1.
SF = 0.
ELSE
if(AN2 > 1. ) AN2 = 1.
if(AN2 < -1.) AN2 = -1.
CF = AL2/SQRT(1.-AN2*AN2)
if(CF < -1.) CF =-1.
if(CF > 1. ) CF = 1.
WSFK = SQRT(1.-CF*CF)
SF = AM2/SQRT(1.-AN2*AN2)
IF(SF > 0.)SF = WSFK
IF(SF < 0.)SF = -WSFK
ENDIF
! FIRST
RQ=DWZ*S511s
w511 = EXP(-RQ)*2.
!+++++++++++++++++++++++++++++++++++++++++++ RANGE IN MATTER
VS = EXP(-RQ)*0.15915*Wp
VSI=VS*0.511
TD=0.511
CALL ANALYS
!!+++++++++++++++++++++++++++++++++++++++++++ first 0.511
CT=1.-2.*RNDM(IY)
ST=sqrt(1.-CT*CT)
Cf=cfp(Sf)
CSW=CT
STW=ST
CFW=CF
SFW=SF
E=0.511
ves = wp
IP = 0.
CALL GAM_511()
!!+++++++++++++++++++++++++++++++++++++++++++ second 0.511
E=0.511
CT=-CSW
ST=-STW
CF=-CFW
SF=-SFW
X=XW
Y=YW
Z=ZW
ves = wp
IP = 0.
CALL GAM_511()
E=TW
X=XW
Y=YW
Z=ZW
CT=COSTW !Memory 1 photon
ST=SINTW
CF=COSFW
SF=SINFW
VES=VESW
kcom = 1
kpar = 1
ktot = 1
RETURN
END
!************************************************************************
SUBROUTINE BLPS()
COMMON /RES/ VS,VSI,TD
COMMON /SOS/ T,X,Y,Z,COST,SINT,COSF,SINF,VES
COMMON /DET/ XDET,YDET,ZDET
COMMON /OTC/ GOTC,WOTC
COMMON /ktt/ ktot,kcom,kpho,kpar
COMMON /UG1/ SINP,COSP,SFK,CFK
COMMON /w51/ w511,IP
COMMON /wpp/ Wp
COMMON /RMX/ Rmax,Rkmax
parameter (pi=3.14159,re=2.8179E-13,rek12=0.5*re*re,pire2=pi*re*re)
parameter (amc2=0.511,aimc2=1./amc2)
COSTW=COST
SINTW=SINT
COSFW=COSF
SINFW=SINF
VESW=VES
AL1=SINT*COSF
AM1=SINT*SINF
AN1=COST
DW=SQRT((XDET-X)**2+(YDET-Y)**2+(ZDET-Z)**2)
DWW = 1./DW
AL2=(XDET-X)*DWW
AM2=(YDET-Y)*DWW
AN2=(ZDET-Z)*DWW
COSK=AL1*AL2+AM1*AM2+AN1*AN2
AL=T/0.511
TD=T/(1.+AL*(1.-COSK))
IF(TD.lt.GOTC) GO TO 12
W=TD/T
e0 = T*aimc2
twoe01 = 2.*e0+1.
Wl =alog(twoe01)
compt1 = 2.*pire2*( (1.+e0)/(e0*e0)*( 2.*(1.+e0)/twoe01-&
Wl/e0 )+Wl/(2.*e0)-(1.+3.*e0)/(twoe01*twoe01))
dsdo1 = rek12*W*W*(W+1./W-1.+COSK*COSK) !Dsigma/Domega/sig_tot -> Compton
ot_sec = dsdo1/compt1
!+++++++++++++++++++++++++++++++++++++++++++ RANGE IN MATTER
COST = AN2
if(COST > 1. ) COST = 1.
if(COST < -1.) COST = -1.
SINT = SQRT(1.-COST*COST)
IF(SINT.LE.0.) THEN
COSF = 1.
SINF = 0.
ELSE
if(AN2 > 1. ) AN2 = 1.
if(AN2 < -1.) AN2 = -1.
COSF = AL2/SQRT(1.-AN2*AN2)
if(COSF < -1.) COSF =-1.
if(COSF > 1. ) COSF = 1.
WSFK = SQRT(1.-COSF*COSF)
SFK = AM2/SQRT(1.-AN2*AN2)
IF(SFK > 0.)SINF = WSFK
IF(SFK < 0.)SINF = -WSFK
ENDIF
ktot = 1;kcom = 0;kpho =0; kpar = 0
! FIRST
CALL SIG_phots(TD,SZs,TSK,TSF,TPP)
if(ZDET > 0.) then
DWZ = (Rmax-Z)/AN2
else
DWZ = -Z/AN2
endif
RQ=DWZ*SZs
!+++++++++++++++++++++++++++++++++++++++++++ RANGE IN MATTER
IF(RQ.GE.35.) then
VS = 0.
VSI = 0.
GO TO 12
endif
IP=0
if(IP==0) then
VS=VES*ot_sec*EXP(-RQ)
else
VS=wp*ot_sec*EXP(-RQ)
endif
IF(VS.LT.WOTC) then
VS = 0.
VSI = 0.
GO TO 12
endif
VSI=VS*TD
CALL ANALYS
12 COST=COSTW
SINT=SINTW
COSF=COSFW
SINF=SINFW
VES=VESW
kcom = 1
kpar = 1
ktot = 1
END
!*******************************************************
SUBROUTINE GAM_511()
COMMON /SOS/ E,X,Y,Z,CT,ST,CF,SF,W
COMMON /RMX/ Rmax,Rkmax
COMMON/OTC/ GOTC,WOTC
COMMON /ktt/ ktot,kcom,kpho,kpar
COMMON /w51/ w511,IP
ktot = 1;kcom = 1;kpho = 1;kpar = 0
CALL SIG_phots(E,Stots,SSKs,SSF,SSPs)
RN = RNDM(IY)
IF(RN <= 0.) RN=1.E-4
RNl = - ALOG(RN)
DLPR = RNl/Stots
Z=Z+DLPR*CT
IF(Z < 0.) RETURN
IF(Z > Rmax) RETURN
RR=DLPR*ST
X=X+RR*CF
Y=Y+RR*SF
100 continue
RN=RNDM(IY)
STET=1./STOTs
IF(RN.LT.SSKs*STET) GO TO 54 !COMPTON
!*************** photo ***************************
RETURN
!*************************************************
!************** compton **************************
54 continue
IP = 1.
CALL BLPS() !!!!!!!!!!!!!!WKLAD
EP =E
CALL COMKL3(Ep,E)
IF(E.LT.GOTC) RETURN
!NEXT COLLISIONS
! ktot = 1;kcom = 1;kpho = 1;kpar = 0
CALL SIG_phots(E,Stots,SSKs,SSFs,SSPs)
RN = RNDM(IY)
IF(RN.LE.0.) RN=1.E-4
RNl = - ALOG(RN)/Stots
Z=Z+DLPR*CT
if(z < 0.) return
IF(Z > Rmax) RETURN
RR=DLPR*ST
X=X+RR*CF
Y=Y+RR*SF
GO TO 100
END
Subroutine SIG_phots(E_ph,Stot,Scom,Spho,Spai)
!******************************************************
! ktot -> total if = 1
! kcom -> Compton if = 1
! kpho -> Photo if = 1
! kpar -> Pair if = 1
!******************************************************
COMMON /SBTgs/etabls(1000),SFLs(1000),SKKs(1000),SPPs(1000),SGTs(1000)
COMMON /SB/ dem,Emin,deb
COMMON /ktt/ ktot,kcom,kpho,kpar
IF(E_ph.LT.1.) THEN
i = int((E_ph-Emin)*dem)+1
!print*,E_ph,Emin,dem
!read(*,*)
DX=E_ph-etabls(I)
AA=DX/(etabls(I+1)-etabls(I))
Spai = 0.
IF(ktot.eq.1) Stot = SGTs(I)+(SGTs(I+1)-SGTs(I))*AA
IF(kcom.eq.1) Scom = SKKs(I)+(SKKs(I+1)-SKKs(I))*AA
IF(kpho.eq.1) Spho = SFLs(I)+(SFLs(I+1)-SFLs(I))*AA
return
ENDIF
i = int((E_ph-1.)*deb)+200
DX=E_ph-etabls(I)
AA=DX/(etabls(I+1)-etabls(I))
IF(ktot.eq.1) Stot = SGTs(I)+(SGTs(I+1)-SGTs(I))*AA
IF(kcom.eq.1) Scom = SKKs(I)+(SKKs(I+1)-SKKs(I))*AA
IF(kpho.eq.1) Spho = SFLs(I)+(SFLs(I+1)-SFLs(I))*AA
Spai = 0.
IF(E_ph.gT.1.2) THEN
IF(kpar.eq.1) Spai = SPPs(I)+(SPPs(I+1)-SPPs(I))*AA
ENDIF
return
END
SUBROUTINE COMKL3(T,TR)
COMMON /SOS/ E,X,Y,Z,CT,ST,CF,SF,WW
COMMON /UG1/ SINTP,COSTP,SINFP,COSFP
TAU = T*1.9569
TAUS = TAU
ab = 1./(1.+2.*TAU)
A = TAU*ab
AA = A+TAU
FA = 1.+2.*TAU+ab
FAK=FA+2.
GT=TAU-A
6 CSIS=A+RNDM(IY)*GT
R1=RNDM(IY)
ETA=RNDM(IY)*FAK
FIL=FA-2.*(CSIS-A)
IF(ETA.GT.FIL) THEN
CSI=AA-CSIS
ETA=FAK-ETA
ELSE
CSI=CSIS
ENDIF
AB=1./TAU-1./CSI
FKA=TAU/CSI+CSI/TAU+AB*(2.+AB)
IF(ETA.GT.FKA) THEN
GO TO 6
ELSE
TR=CSI*0.511
TAU=CSI
ENDIF
COSTP = 1.-1./TAU+1./TAUS
S = 1.-COSTP*COSTP
IF(S.lt.0.) S = 0.
COSFP = CFP(SINFP)
SINTP=SQRT(S)
CALL UGOLKY(CT,ST,CF,SF,A1,A2,A3,A4,1)
END
SUBROUTINE COMKL(T)
COMMON/UG1/ STDOP,CTDOP,SFDOP,CFDOP
COMMON /SOS/ E,X,Y,Z,CT,ST,CF,SF,WW
TAU=T*1.9569E0
TS=T
TAUS=TAU
1 CONTINUE
ALFR=TAU*(1.+2.D0*RNDM(iy)*TAU)/(1.+2.*TAU)
AN=1.0/TAU
AR=1.0/ALFR
FF=AN*ALFR+TAU*AR+(AN-AR)*(2.0+AN-AR)
PRW=RNDM(iy)*(1.0+2.0*TAU+1.0/(1.0+2.0*TAU))
IF(FF.GT.PRW) THEN
T=ALFR*0.511
TAU = ALFR
ELSE
GO TO 1
ENDIF
COSTGP=1.0-(TAUS-TAU)/(TAU*TAUS)
S=1.0-COSTGP*COSTGP
if(s.lt.0.0)S=0.0
CALL azim(CFDOP,SFDOP)
CTDOP= COSTGP
STDOP= SQRT(S)
L=1
CALL UGOLKY(CT,ST,CF,SF,A1,A2,A3,A4,L)
END
SUBROUTINE UGOLKY(CTE,STE,CFE,SFE,COST,SINT,COSF,SINF,L)
COMMON/UG1/ ST,CT,SF,CF
A1=ST*CF
COST=CTE*CT-STE*A1
IF(COST.GT.1.)COST=1.
if(SQRT(1.-COST*COST)<0.) then
print*,COST,COST*COST
read(*,*)
endif
SINT=SQRT(1.-COST*COST)
IF(abs(SINT).GT.1.E-5) GO TO 2
1 SINF=0.
COSF=1.
GO TO 3
2 A2=STE*CT+CTE*A1
A1=ST*SF
COSF=(A2*CFE-A1*SFE)/SINT
SINF=(A2*SFE+A1*CFE)/SINT
3 GO TO (4,5),L
4 STE=SINT
CTE=COST
SFE=SINF
CFE=COSF
5 RETURN
END
```

So... is it enough to determine the error in counting vast numbers of particles?

`open`

statement). I suggest you look into both of those possibilities. What, for example, is the name of the file in question ? And @steabert's advice is still good, shrink your program to a minimal example which still exhibits the problem. – High Performance Mark Nov 14 '13 at 8:41,) statement somewhere in the body of the program used for debugging purposes. When prompted to calculate over2000000 particles that statement created an instability in the program, crashing it somewhere along the way. – Arthmost Nov 17 '13 at 18:08