I would just like to expand on Lance Helsten's excellent answer:

The depth-limited search searches for a particular node within a certain depth (what you're calling the length L), and stops when it finds it. If you will take a look at the pseudocode in the wiki link in his answer, you'll understand this:

```
DLS(node, goal, depth) {
if ( depth >= 0 ) {
if ( node == goal )
return node
for each child in expand(node)
DLS(child, goal, depth-1)
}
}
```

In your case, however, as you're looking for all paths of length L from a node, you will not stop anywhere. So the pseudocode must be modified to:

```
DLS(node, depth) {
for each child in expand(node) {
record paths as [node, child]
DLS(child, depth-1)
}
}
```

After you're done with recording all the single-link paths from successive nests of the DLS, just take a product of them to get the entire path. The number of these gives you the number of paths of the required depth starting from the node.