Ignoring implementation details of the random generator(which in practice requires side effects, and in theory doesn't have to), then this function is side effect free but not pure.
Basically imagine the function call to be an oracle machine that returns random numbers based entirely on nothing. There is a proof somewhere that says you can't do this, but for the time being just imagine it to be so.
If you treat a PRNG function as this oracle machine that gives you a random number each time you ask for it, hen it is side-effect free and impure, and the function inherits that.
The type of side effect that doesn't violate referential transparency is sometimes referred to as a "soft side effect" sine it doesn't alter the behavior of the program(note:before you tell me that reading the time changes the behavior of the number generated, the specification of the function call says that the function returns a random number. Reading the time clock is an implementation detail of getting that specification to work. Changing the time clock(except under extremely degenerate circumstances) does not alter the fact that the function returns a psuedo random number, since the specification doesn't detail what that number is.
The classic example of a soft side effect is logging, since programs usually don't inspect their logs and alter behavior based on it.
If you wanted to do this in a functionally pure way you would have to implement a state monad.
Basically take that, make you state a random number generator and the 'a an int, and then your control flow will isolate the impurity to a single function and creates a hard order on the sequencing.
There is really no point to doing this in F#, as having impure functions doesn't really cause problems(having functions with side effects on the other hand, does).
Of course that monad is impure, but it isolates the impurity nicely.