This property is rare in groups of small order. If I have calculated correctly then, of the $1237$ group of order at most $120$, $56$ have this property. But for $44$ of these, there is a unique group of that order, so there are really only $12$ interesting examples, which include $A_4$, $A_5$, ${\rm SL}(2,5)$, but not $S_5$, which has the same subgroup order type as $A_5 \times C_2$.
The principal reason that the property is rare is that a large majority of groups appear to satisfy the converse of Lagrange's Theorem: they have subgroups of all orders dividing the group order.
It would be very nice if there were statements of that kind that could be proved, but at present the available techniques do not seem to be adequate for this purpose.
Here is a sequence of reasonable conjectures of increasing strength:
There are asymptotic estimates on number of groups with various properties (see for example Number of isomorphism types of finite groups), but they are not precise enough to prove any of these "almost all" statements.