I am running some parallel code on a machine which has 4 intel processors and 8 cores on each .I am using TBB.Suppose a given loop(that I parallelize ) has X iterations how should I choose my grainsize to ensure the load is evenly divided?
Assume you have N equally powerful CPUs.
If there are no loop carried dependencies (e.g, nothing in iteration i is used by following iterations), then you can simply run loop iterations 0..X/N on CPU 1, and iterations (X/N)+1..(2*X/N) on CPU 2, etc, assuming that each iteration takes exactly the same amount of time, or at least an average amount of that doesn't vary wildly.
If there are loop carried dependencies, you may have a problem if iteration i depends on all previous iterations. If it only dependes on the the previous k iterations, you can have CPU1 do iterations 0..X/N, and CPU2 do iterations X/N-k..(2*X/N), wasting some work but allowing CPU2 to collect the results it needs, etc. for all processors.
If iterations take wildly varying amounts of time, you're better off setting up a worklist containing the iterations, and have the CPUs grab iterations from the workslist as they complete previous iterations. This way the work is divided up as demand appears. You have to be sure that the time per unit of work grabbed is lots larger than the effort to get the work, or you'll get no parallel advantage; one way to do this is to grab a small range of iterations from the worklist, such that the total work in the range exceeds the scheduling overhead significantly.
With TBB, you don't have to select a grain size for parallel_for. In most cases, TBB will dynamically load balance the work pretty well by default. The answer of Ira Baxter correctly describes how you should partition the work across a pool of threads; but TBB already has similar mechanisms in place that do this for you.
ADDED: Surely manual work partitioning might get better results in complex cases. Though in this case one would likely need to use TBB tasks, as parallel_for might not provide enough control; for example, in general it is not possible to specify the exact size of a per-thread chunk.