There's different ways to picture one. One I find useful is the oracle model. Did you ever see the Far Side cartoon where a derivation on the blackboard has "Here a miracle occurs" as one of the intermediate steps? In this version of a NDTM, when you need to choose something, the oracle writes the correct version on the right part of the tape. (This is taken from Garey and Johnson, *Computers and Intractability*, their classic book on NP-complete problems.) You aren't allowed to assume you've got the right one, though, and there may not be a correct one.

Therefore, when you non-deterministically guess a bijection, you're getting the correct bijection for your purposes, provided one exists.

It isn't a good basis for an algorithm, since the complexity of implementing a non-deterministic Turing machine is basically exponential in the nondeterministic states, and the algorithmic equivalent of the nondeterministic guess is to try every possible bijection.

From a theoretical point of view, I'd translate it as "If there is a bijection such that....". From an algorithmic point of view, find another book, or another chapter of the same book, since that approach is useless for even moderately large graphs.