I am brand new to CUDA programming. I have a CUDA subroutine that, hopefully, models the diffusion equation with a simple source:

```
attributes(global) subroutine diff_time_stepper(v,diffconst)
real*8 :: v(:,:)
real*8 :: diffconst
real*8 :: vintermed
integer :: i,j,m
integer :: nx, ny
nx=256
ny=256
i=(blockIdx%x-1)*blockDim%x+threadIdx%x
j=(blockIdx%y-1)*blockDim%y+threadIdx%y
if (i<nx .and. j<ny .and. i>1 .and. j>1) then
vintermed=v(i,j)+diffconst*(v(i-1,j)-2.*v(i,j)+v(i+1,j)+v(i,j-1)-2.*v(i,j)+v(i,j+1))
v(i,j)=vintermed
! add a source for the heck of it
if (i==64 .and. j==64) v(i,j)=v(i,j)+1
endif
end subroutine
```

My question: This routine seems to work, giving reasonable results (even though not running as fast as I had hoped). But do I have "backward dependencies" here? In particular, vinterm gets set by a function involving several v's, and then v gets set equal to vtinerm. And then v(64,64) gets set after this calculation. Are these potential problems? More generally, even though I have found alot of discussion about how to program for CUDA, I have found very little discussion on this issue of backward dependence, which seems to me of paramount importance. Can anyone point me to a good discussion of this? Thanks.