Let's say I have a lazy `Tree`

whose leaves are possible solutions to a problem

```
data Tree a = Node [Tree a] | Leaf (Maybe a)
```

I need to find *just one* solution (or find out that there are none).

I have a *P*-core machine. From both time and memory efficiency considerations, it only makes sense to search along *P* different branches in parallel.

For example, suppose you have four branches of about the same computational complexity (corresponding to *T* seconds of CPU time), and each of them has an answer.

If you evaluate all four branches truly in parallel on a dual-core machine, then they all will finish in about *2T* seconds.

If you evaluate just the first two branches and postpone the other two, then you'll get an answer in only *T* seconds, also using twice as less memory.

My question is, is it possible to use any of the parallel Haskell infrastructure (Par monad, parallel strategies, ...) to achieve this, or do I have to use lower-level tools like async?