I am a beginner in coding Fortran and still in the main learning process. I wrote a programm for FE Simulation in Fortran which works. But the performance is still too slow. Therefore I first implemented sparse matrices, which sped up the code nicely. But it is still not fast enough. This is why I thought using openMP und parallelize parts of the code would be really helpful. But when I tried to implement the commands of openMP, either the code worked slower as before (I assume too much overhead) or it didn't execute correctly anymore.

Before the upcoming part of the code, there is one do loop which is for the time stepping. Variable nE is quite high, lets say up to 50K or more. This loop is necessary to be computed for every time step. And it is the part of the code I want to parallelize:

```
!$omp parallel
!$omp do private(v, b, N_loc, c, n, vertices, a1, a2, a3, b1, b2, b3, etc...)
do v = 1, nE
do b = 1, 4
N_loc(1,b) = umesh_elt(v,b) !Extracting node numbers
c(1,b) = c_s(N_loc(1,b),1) !Extracting values
n(1,b) = n_s(N_loc(1,b),1)
vertices(b,1) = umesh_co(N_loc(1,b),1) !Extracting coordinates
vertices(b,2) = umesh_co(N_loc(1,b),2) !Extracting coordinates
end do
a1 = 0.25*(-vertices(1,1)+vertices(2,1)+vertices(3,1)-vertices(4,1))
a2 = 0.25*(-vertices(1,1)-vertices(2,1)+vertices(3,1)+vertices(4,1))
a3 = 0.25*(+vertices(1,1)-vertices(2,1)+vertices(3,1)-vertices(4,1))
b1 = 0.25*(-vertices(1,2)+vertices(2,2)+vertices(3,2)-vertices(4,2))
b2 = 0.25*(-vertices(1,2)-vertices(2,2)+vertices(3,2)+vertices(4,2))
b3 = 0.25*(+vertices(1,2)-vertices(2,2)+vertices(3,2)-vertices(4,2))
do j = 1, nGauss
J_c(1,1) = a1 + a3*QuadRuleX(j,2)
J_c(1,2) = a2 + a3*QuadRuleX(j,1)
J_c(2,1) = b1 + b3*QuadRuleX(j,2)
J_c(2,2) = b2 + b3*QuadRuleX(j,1)
J_det(j,1) = J_c(1,1)*J_c(2,2) - J_c(1,2)*J_c(2,1)
end do
do k = 1, 4
y(k,1) = 0.0
do z = 1, nGauss
r = QuadRuleX(z,1)
t = QuadRuleX(z,2)
if (k == 1) then
phi = 0.25*(r-1)*(t-1)
else if (k == 2) then
phi = -0.25*(r+1)*(t-1)
else if (k == 3) then
phi = 0.25*(r+1)*(t+1)
else if (k == 4) then
phi = -0.25*(r-1)*(t+1)
endif
phi_1 = 0.25*(r-1)*(t-1)
phi_2 = -0.25*(r+1)*(t-1)
phi_3 = 0.25*(r+1)*(t+1)
phi_4 = -0.25*(r-1)*(t+1)
c_h = c(1,1)*phi_1+c(1,2)*phi_2+c(1,3)*phi_3+c(1,4)*phi_4
n_h = n(1,1)*phi_1+n(1,2)*phi_2+n(1,3)*phi_3+n(1,4)*phi_4
y(k,1)=(phi*((((hi-1)*c_h+hi)/(2*(hi-1)*c_h+1))*n_h* (2-n_h)-n_h))*J_det(z,1)*QuadRuleW(z,1)+y(k,1)
end do
end do
S(z1,1) = y(1,1)+S(z1,1)
S(z2,1) = y(2,1)+S(z2,1)
S(z3,1) = y(3,1)+S(z3,1)
S(z4,1) = y(4,1)+S(z4,1)
end do
!$omp end do
!omp end parallel
```

After this snap of code, there is the end of the time step do loop and some if clauses to stop the simulation if something specific has happened.

I compile this with the option ifort -mkl -openmp NAME.f90 When try to execeute it with time ./a.out the code is not working correctly, the program starts and stop without any error.

I assume I am doing something wrong basically, like I have not correctly understood how to setup those do loops with openMP correctly. Does anybody have any advice?

I appreciate any help, thanks a lot! Arne