Probably because it makes more sense to optimize allocation at the expense of deallocation, because many applications allocate without deallocating, but never vice versa. I've seen a similar pattern myself, in an application that mixed calls to
free (as opposed to allocating and deallocating all at once).
I've never written a heap allocator, so I don't know if there's a deeper technical reason than that. When deallocating, adjacent free blocks must be found and coalesced. So the work is just fundamentally different.
90 seconds for 1 million small
free()'s sounds quite slow. I've never really programmed Windows so I can't say if that's abnormal, but the system should be able to do much better.
The solution to your problem may be simply to skip freeing the objects before the program exits. You might try deriving a custom allocator from
std::allocator< unsigned int > which makes
deallocate a no-op.