**EDIT** (this is the correct answer, and sorry for discovering it late...)

```
> binary:decode_unsigned(<<0,1,0,0>>,little).
256
```

The easier way would be something like:

```
decode_my_binary( <<A,B,C,D>> ) ->
A + B*256 + C*65536 + D*16777216.
```

**EDIT**:

As per your edit, if you find this one not very elegant, you can try other approaches. Still I think the above is the correct way of doing it. You can write a recursive function (not tested, but you get the idea):

```
decode( B ) -> decode(binary_to_list(B), 0, 1).
decode( [], R, _ ) -> R;
decode( [H|T], R, F) ->
decode(T, R + H*F, F*256).
```

but this is clearly slower. Another possibility is to have the list of the binary digits and the list of multipliers and then fold it:

```
lists:sum(lists:zipwith( fun(X,Y) -> X*Y end,
binary_to_list(B), [ math:pow(256,X) || X <- [0,1,2,3] ])).
```

Or if you want a variable number of digits:

```
fun(Digits) ->
lists:sum(lists:zipwith( fun(X,Y) -> X*Y end,
binary_to_list(B), [ math:pow(256,X) || X <- lists:seq(0,Digits-1])).
```

where `Digits`

tell you the digit number.

`/little`

and`/big`

qualifiers, as @archaelus did? – nox Jun 16 '12 at 9:35