Yes it can; for this, you should use a multi-processing model, where you program spawns multiple processes to do computation independently and then merge results.
The simplest way to do is to use the
Unix.fork system call to fork your program into two processes. This is described for example in the online book Unix system programming in OCaml. If the computation you want to split across cores has a simple structure (iteration, mapping over a pool of inputs), Parmap is a library that will let you benefit from parallelism rather easily, just by changing some function calls in your application (if it is well structured already). If you want to do more sophisticated things (direct access to shared memory structures, message boxes...), the Ocaml-net project supports lot of convenient features through the Netmulticore library.
If you want to do distributed programming (programs that run on a cluster of several machines), the OcamlMPI library provides support for the well-known distributed message passing framework MPI. There is also the more experimental and high-level JoCaml extension, that uses an interesting, more researchy approach to concurrent communication.
Note that if you have no specific performance constraints, or if you application is inherently sequential, it makes no sense to bother to try to parallelize some computation (at the cost of the higher book-keeping overhead of synchronization), in the latter case because of Amdahl's law.