Lets say there is a computer with 4 CPUs each having 2 cores, so totally 8 cores. With my limited understanding I think that all processors share same memory in this case. Now, is it better to directly use openMP or to use MPI to make it general so that the code could work on both distributed and shared settings. Also, if I use MPI for a shared setting would performance decrease compared with openMP?
With most distributed memory platforms nowadays consisting of SMP or NUMA nodes it just makes no sense to not use OpenMP. OpenMP and MPI can perfectly work together - OpenMP feeds the cores on each node and MPI communicates between the nodes. This is called hybrid programming. It was considered exotic 10 years ago but now is becoming mainstream in Hight Performance Computing.
As for the question itself, the right answer, given the information provided, has always been one and the same: IT DEPENDS.
Whether you need or want MPI or OpenMP (or both) heavily depends the type of application you are running, and whether your problem is mostly memory-bound or CPU-bound (or both). Furthermore, it depends on the type of hardware you are running on. A few examples:
In this case you probably want to use MPI and start one MPI process on each node, thereby making maximum use of the available memory while limiting communication to the bare minimum.
In this case OpenMP is your first choice. You only need to add a few statements here and there (e.g. in front of your for loops that you want to accelerate), and if your program is not too complex, OpenMP will do the rest for you automatically.
Now your hardware comes into play. From my personal experience, if you have only a few cores per node (4-8), the performance penalty created by the general overhead of using OpenMP (i.e. starting up the OpenMP threads etc.) is more than the overhead of processor-internal MPI communication (i.e. sending MPI messages between processes that actually share memory and would not need MPI to communicate).
To your second question (in case that did not become clear):
For use on a single shared memory machine like that, I'd recommend OpenMP. It make some aspects of the problem simpler and might be faster.
If you ever plan to move to a distributed memory machine, then use MPI. It'll save you solving the same problem twice.
The reason I say OpenMP might be faster is because a good implementation of MPI could be clever enough to spot that it's being used in a shared memory environment and optimise its behaviour accordingly.
Just for a bigger picture, hybrid programming has become popular because OpenMP benefits from cache topology, by using the same address space. As MPI might have the same data replicated over the memory (because process can't share data) it might suffer from cache cancelation.
On the other hand, if you partition your data correctly, and each processor has a private cache, it might come to a point were your problem fit completely in cache. In this case you have super linear speedups.
By talking in cache, there are very different cache topology on recent processors, and has always: IT DEPENDS...