I am new to openMP so bear with me. I use a macbook pro with OX Mavericks and installed a version of gfortran compatible with my OS.

I implemented a very simple dynamic programming problem to solve something that economist call the Neoclassical Growth Model.

I find no problem when I run it without openMP, however when trying to compile the program with -fopenmp option I get either

Illegal Instruction: 4 or Segmentation Fault: 11

... probably I am doing something very wrong.

I attach the main program, subroutines, modules and .sh compilation file

```
PROGRAM prg_dp1
! PRG_DP1 SOLVES THE GROWTH MODEL BY VALUE FUNCTION ITERATION OVER A DISCRETE GRID
! WITHOUT INTERPOLATION. EVALUATION IS DONE OVER NEXT PERIOD CAPITAL
! PROBLEM: PROGRAMMED AS MATRICES IT LIMITS THE SIZE OF THE PROGRAM BEFORE !SEGMENTATION FAULTS OCCUR
USE modvar
IMPLICIT NONE
REAL(DP), DIMENSION(nk) :: v,v0,kp,c
REAL(DP), DIMENSION(nk,nk) :: cm,um,vm
REAL(DP) :: kstar,tbegin,tend
INTEGER :: it,ik1,ik2,ind(nk)
! INVOCATION OF THE OUTPUT FILES WHERE THE INFORMATION IS GOING TO BE WRITTEN
CALL CPU_TIME(tbegin)
! DEFINITION OF THE PARAMETERS OF THE MODEL
p(1)=1.0001 ! Intertemporal elasticity of substitution (SIGMA)
p(2)=0.96 ! Intertemporal discount factor (BETA)
p(3)=0.06 ! Depreciation rate (DELTA)
p(4)=0.36 ! Share of capital in production (ALPHA)
p(5)=0.00 ! (Parameter not needed)
! COMPUTATION OF THE STEADY STATE CAPITAL STOCK
kstar=((1.0/p(2)-(1.0-p(3)))/p(4))**(1.0/(p(4)-1.0))
! FIRST I ALLOCATE AND CONSTRUCT THE GRID
slope=1.0
gkmin=0.0001
gkmax=5.0*kstar
! ALLOCATE(gk(nk),ones(nk,nk))
ALLOCATE(gk(nk))
! ones=1.0
CALL sub_grid_generation(gk,nk,slope,gkmin,gkmax)
! DEFINITION OF THE MATRICES OF CONSUMPTION AND UTILITY
!$OMP PARALLEL DEFAULT(SHARED) PRIVATE(ik1,ik2)
!$OMP DO SCHEDULE(DYNAMIC)
DO ik1=1,nk
DO ik2=1,nk
cm(ik1,ik2)=gk(ik1)**p(4)+(1.0-p(3))*gk(ik1)-gk(ik2)
END DO
END DO
!$OMP END DO
!$OMP END PARALLEL
! cm = gk**p(4)+(1.0-p(3))*gk-gk*ones
WHERE (cm .le. 0.0)
um=-1.0e+6
ELSEWHERE
um=(cm**(1.0-p(1))-1.0)/(1.0-p(1))
END WHERE
! DINAMIC PROGRAMMING STEP
! I first initialize the value function to zeros
v0=0.0
! Main do has to be done by master-thread ... can I parallelize more?
DO
!$OMP PARALLEL DO PRIVATE(ik2)
DO ik2=1,nk
vm(:,ik2)=um(:,ik2)+p(2)*v0(ik2)
END DO
!$OMP END PARALLEL DO
v=MAXVAL(vm,DIM=2)
print *, MAXVAL(ABS(v-v0))
IF (MAXVAL(ABS(v-v0)) .le. dp_tol) THEN
EXIT
ELSE
v0=v
END IF
END DO
ind=MAXLOC(v,DIM=1)
kp=gk(ind)
c=gk**p(4)+(1.0-p(3))*gk-kp
open(unit=1,file='output.txt')
DO ik1=1,nk
write(1,'(4F10.5)') gk(ik1),v(ik1),kp(ik1),c(ik1)
END DO
close(1)
DEALLOCATE(gk)
CALL CPU_TIME(tend)
PRINT *, tend-tbegin
END PROGRAM prg_dp1
SUBROUTINE sub_grid_generation(grid,gsize,slope,gridmin,gridmax)
USE nrtype
INTEGER, INTENT(IN) :: gsize
REAL(DP), INTENT(IN) :: slope,gridmin,gridmax
REAL(DP), INTENT(OUT) :: grid(gsize)
INTEGER :: ig
grid(1)=gridmin
DO ig=2,gsize
grid(ig)=gridmin+((gridmax-gridmin)/dfloat(gsize)**slope)*dfloat(ig)**slope
END DO
```

END SUBROUTINE sub_grid_generation

```
MODULE nrtype
INTEGER, PARAMETER :: I4B = SELECTED_INT_KIND(9)
INTEGER, PARAMETER :: I2B = SELECTED_INT_KIND(4)
INTEGER, PARAMETER :: I1B = SELECTED_INT_KIND(2)
INTEGER, PARAMETER :: SP = KIND(1.0)
INTEGER, PARAMETER :: DP = KIND(1.0D0)
INTEGER, PARAMETER :: SPC = KIND((1.0,1.0))
INTEGER, PARAMETER :: DPC = KIND((1.0D0,1.0D0))
INTEGER, PARAMETER :: LGT = KIND(.true.)
REAL(SP), PARAMETER :: PI=3.141592653589793238462643383279502884197_sp
REAL(SP), PARAMETER :: PIO2=1.57079632679489661923132169163975144209858_sp
REAL(SP), PARAMETER :: TWOPI=6.283185307179586476925286766559005768394_sp
REAL(SP), PARAMETER :: SQRT2=1.41421356237309504880168872420969807856967_sp
REAL(SP), PARAMETER :: EULER=0.5772156649015328606065120900824024310422_sp
REAL(DP), PARAMETER :: PI_D=3.141592653589793238462643383279502884197_dp
REAL(DP), PARAMETER :: PIO2_D=1.57079632679489661923132169163975144209858_dp
REAL(DP), PARAMETER :: TWOPI_D=6.283185307179586476925286766559005768394_dp
REAL(DP), PARAMETER :: gr=(5.0**0.5-1.0)/2.0
TYPE sprs2_sp
INTEGER(I4B) :: n,len
REAL(SP), DIMENSION(:), POINTER :: val
INTEGER(I4B), DIMENSION(:), POINTER :: irow
INTEGER(I4B), DIMENSION(:), POINTER :: jcol
END TYPE sprs2_sp
TYPE sprs2_dp
INTEGER(I4B) :: n,len
REAL(DP), DIMENSION(:), POINTER :: val
INTEGER(I4B), DIMENSION(:), POINTER :: irow
INTEGER(I4B), DIMENSION(:), POINTER :: jcol
END TYPE sprs2_dp
END MODULE nrtype
MODULE modvar
USE nrtype
IMPLICIT NONE
REAL(DP), PARAMETER :: r_tol=1e-8
REAL(DP), PARAMETER :: p_tol=1e-6
REAL(DP), PARAMETER :: dp_tol=1e-6
REAL(DP), PARAMETER :: c_tol=0.001
REAL(DP), PARAMETER :: adj=0.5
INTEGER, PARAMETER :: r_m=10000
! PARAMETER THAT DEFINE THE DIMENSION OF THE PROBLEM
INTEGER, PARAMETER :: nk=5000
INTEGER, PARAMETER :: nz=21
INTEGER, PARAMETER :: np=20000
INTEGER, PARAMETER :: nt=5000
INTEGER, PARAMETER :: maxit=10000
INTEGER, PARAMETER :: dist_maxit=5000
! POLICY PARAMETER, COMMON ENDOGENOUS VARIABLES AND OTHER ALLOCATABLE ARRAYS
REAL(DP), PARAMETER :: nw=0.0
REAL(DP), PARAMETER :: ft=0.33
REAL(DP) :: p(5),gkmin,gkmax,slope
REAL(DP), ALLOCATABLE :: gk(:),gz(:),m(:,:),mss(:),ones(:,:)
END MODULE modvar
```

and the .sh file I use to compile

```
export OMP_NUM_THREADS=8
gfortran -O2 -fopenmp -c nrtype.f90 modvar.f90 sub_grid_generation.f90 prg_dp1.f90
gfortran -O2 -fopenmp -fcheck=bounds -o myprog nrtype.o modvar.o sub_grid_generation.o prg_dp1.o
```

I know this is tedious but I would appreciate some help

Thank you