SELECT TYPE is typically implemented by the descriptor for the polymorphic object (
CLASS(*) :: A here) having a token or pointer or index of similar that designates the dynamic type of the object. Execution of the select type is then like a SELECT CASE on this token, with the additional complication that non-polymorphic type guards (TYPE IS) are matched in preference to polymorphic guards (CLASS IS).
There is some overhead associated with this construct. That overhead is more than if the code did nothing at all. Then again, code that does nothing at all is rarely useful. So the real question is whether the use of SELECT TYPE is better or worse execution speed wise to some alternative approach that provides the necessary level of functionality (which might be less than the full functionality that SELECT TYPE provides) that your code needs. To answer that, you would need to define and implement that approach, and then measure the difference in speed in a context that's relevant to your use case.
As indicated in the comments, an unlimited polymorphic entity is essentially a type safe way of storing something of any type. In this case, SELECT TYPE is required at some stage to be able to access the value of the stored thing. However, this is only a rather specific subset of F2003's support for polymorphism. In more typical examples SELECT TYPE would not be used at all - the behaviour associated with the dynamic type of an object would be accessed by calling overridden bindings of the declared type.