Aside from the benefit of enabling argument deduction (as already mentioned in other answers), there are also some other benefits.
std::make_pair<T1, T2> takes care to not simply return
std::pair<T1, T2>. If you pass in a value using
std::ref, then the returned pair won't store a
std::reference_wrapper, it will store a reference.
std::make_shared can combine allocations.
shared_ptr needs some place to hold things like the refcount, weak pointer list, etc. that cannot be stored in the
shared_ptr directly. These can be combined with the object being created, in one slightly larger block rather than in two separate blocks.
std::make_unique both make sure that no object gets left behind if exceptions are thrown. If you call a function as
f(std::shared_ptr<int>(new int), std::shared_ptr<int>(new int)), then it's possible the compiler first allocates two
int objects, and then constructs two
shared_ptr<int> objects. If the second allocation fails, and no
shared_ptr<int> object is set up yet to release the memory on destruction, then you have a memory leak.
std::make_unique combine the allocation of
int and the construction of
std::shared_ptr<int> in a function call, and the other allocation of
int and the other construction of
std::shared_ptr<int> in another function call. Function calls cannot overlap, so if the second allocation fails, there is already a shared pointer that will be destroyed, undoing the first allocation as well.