I'd like to simulate the equivalence in Prolog with the properties of being commutative and transitive, here is what I did: equal/2 will be supplying as facts.

```
symmetricEqual(A,B):- equal(A,B).
symmetricEqual(A,B):- equal(B,A).
transitiveEqualPath(A,B,_) :- symmetricEqual(A,B).
transitiveEqualPath(B,C,IntermediateNodes) :-
symmetricEqual(A,B),
\+ member(C,IntermediateNodes),
transitiveEqualPath(A,C,[B|IntermediateNodes]), B\==C.
transitiveEqual(A,B) :- transitiveEqualPath(A,B,[]).
```

But I am running into performance issues with the above solution to try to compute transitiveEqual/2 (it has taken roughly 20mins), I have around 2K symmetricalEqual/2 facts computed pretty fast from equal/2, so it must be the cause of rules for transitiveEqual/2, anybody can suggest any improvement on this?

Thanks very much.