I am trying to optimize this FDTD code with CUDA Fortran. I have three 3-D cube matrix with input, output and costant.

```
attributes (global) subroutine kernel_h(k,num_cells_x,num_cells_y,num_cells_z,Hx,Hy,Hz,Ex,Ey,Ez,Cbdx,Cbdy,Cbdz)
implicit none
integer :: idx,idy
integer,value :: k,num_cells_x,num_cells_y,num_cells_z
real(kind=8), intent(in), dimension(1:num_cells_x,1:num_cells_y,1:num_cells_z) :: Ex, Ey, Ez
real(kind=8), intent(inout), dimension(1:num_cells_x,1:num_cells_y,1:num_cells_z) :: Hx, Hy, Hz
real(kind=8), intent(in), constant, dimension(1:num_cells_x,1:num_cells_y,1:num_cells_z) :: Cbdx,Cbdy,Cbdz
idx = threadIdx%x + ((blockIdx%x-1) * blockDim%x)
idy = threadIdx%y + ((blockIdx%y-1) * blockDim%y)
do while (idx < num_cells_x)
Hz(idx,idy,k) = Hz(idx,idy,k) + ((Ex(idx,idy+1,k)-Ex(idx,idy,k))*Cbdy(idx,idy,k) + (Ey(idx,idy,k)-Ey(idx+1,idy,k))*Cbdx(idx,idy,k))
Hx(idx,idy,k) = Hx(idx,idy,k) + ((Ey(idx,idy,k+1)-Ey(idx,idy,k))*Cbdz(idx,idy,k) + (Ez(idx,idy,k)-Ez(idx,idy+1,k))*Cbdy(idx,idy,k))
Hy(idx,idy,k) = Hy(idx,idy,k) + ((Ez(idx+1,idy,k)-Ez(idx,idy,k))*Cbdx(idx,idy,k) + (Ex(idx,idy,k)-Ex(idx,idy,k+1))*Cbdz(idx,idy,k))
idx = idx + (blockDim%x * gridDim%x)
idy = idy + (blockDim%y * gridDim%y)
end do
end subroutine kernel_h
```

and my kernel launch is:

```
bdim=dim3(16,16,1)
gdim=dim3((num_cells_x+(bdim%x-1))/bdim%x,(num_cells_y+(bdim%y-1))/bdim%y,1)
do k=1,num_cells_z
call kernel_h<<<gdim,bdim>>>(k,num_cells_x,num_cells_y,num_cells_z,Hx_d,Hy_d,Hz_d,Ex_d,Ey_d,Ez_d,Cbdx_d,Cbdy_d,Cbdz_d)
end do
```

My questions are: why i can't load more than 100x100x100 matrix? If i try i get a kernel error launch failure. And can i improve my code performace? I think it could be written in a better way.