I tried to solve a PDE numerically and in the course of this I faced the problem of a triple-nested for loop resembling the 3 spatial dimension. This construct is nested in another time loop, so you can imagine that the computing takes forever for sufficient large node numbers. The code block looks like this

```
for jy in range(0,cy-1):
for jx in range(0,cx-1):
for jz in range(0,cz-1):
T[n+1,jx,jy,jz] = T[n,jx,jy,jz] + s*(T[n,jx-1,jy,jz] - 2*T[n,jx,jy,jz] + T[n,jx+1,jy,jz]) + s*(T[n,jx,jy-1,jz] - 2*T[n,jx,jy,jz] + T[n,jx,jy+1,jz]) + s*(T[n,jx,jy,jz-1] - 2*T[n,jx,jy,jz] + T[n,jx,jy,jz+1])
```

It might look intimidating at first, but is quite easy. I have a 3 dimensional matrix representing a solid bulk material, where each point represents the current temperature. The iteratively calculated next temperature at each point is calculated taking into account each point next to that point - so 6 in total. In the case of a 1-dimensional solid the solution is just a simple matrix multiplication. Is there any chance to represent the 3-loop-system above in a simple matrix solution like in the 1D case?

Best regards!