I encounter [in Haskell] the problem that I cannot save intermediate
calculation steps.

I do not know what ressources you used to learn it, but they were apparently not the best.

For example:

```
let
intermediate = {- calculation step -}
in ...
```

saves the result of a calculation step in `intermediate`

. (Better: it binds the variable `intermediate`

to the value. )

In addition, to cite the relevant Wikipedia entry:

In mathematics, computer science, and economics, dynamic programming
is a method for solving complex problems by breaking them down into
simpler subproblems. It is applicable to problems exhibiting the
properties of overlapping subproblems[1] and optimal substructure
(described below). When applicable, the method takes far less time
than naive methods.

The key idea behind dynamic programming is quite simple. In general,
to solve a given problem, we need to solve different parts of the
problem (subproblems), then combine the solutions of the subproblems
to reach an overall solution. Often, many of these subproblems are
really the same. The dynamic programming approach seeks to solve each
subproblem only once, thus reducing the number of computations: once
the solution to a given subproblem has been computed, it is stored or
"memo-ized": the next time the same solution is needed, it is simply
looked up. This approach is especially useful when the number of
repeating subproblems grows exponentially as a function of the size of
the input.

It is obvious that this style of problem solving is supported by Haskell quite nicely. For example, in the easiest case one could carry a map around, that keeps the already solved sub-problems and their solutions. More advanced approach could use the State Monad. And so on.