Here's one way of getting a random set of locations in your 100x100 matrix. First, declare a 100x100 matrix of reals:
real, dimension(100,100) :: randarray
then, put a random number into each element of that array
Now, an expression such as
randarray > 0.9
returns a logical array containing, approximately, 10% true values and 90% false. By tracking down the locations of the true values you have the random x-es and y-es that you seek. Indeed you may not need to find those locations at all, you can simply use the expression in masked assignments and similar operations, for example
where(randarray>0.9) a = func()
as long, of course, as
func returns a scalar or a 100x100 array.
This approach guarantees that each location is different from all the others.
It does not however, address your constraint that the 'random' locations should not be too close to each other. That constraint, of course, is a little inconsistent with randomness.
You could, I suppose, break your 100x100 array into 10x10 blocks and choose, randomly, one element in each block. Would that be a good compromise between your constraints ?