IMHO most answers so far have missed the point of the Koan question, with the exception of @Super_Dummy. Let me elaborate on my thinking...
Say that instead of dice, we were flipping coins. Add on another constraint of only using one coin in our set, and we have a minimum non-trivial set that can generate "random" results.
If we wanted to check that flipping the "coin set" [in this case a single coin] generated a different result each time, we would expect the values of each separate result to be the same 50% of the time, on a statistical basis. Running that unit test through n iterations for some large n will simply exercise the PRNG. It tells you nothing of substance about the actual equality or difference between the two results.
To put it another way, in this Koan we're not actually concerned with the values of each roll of the dice. We're really more concerned that the returned rolls are actually representations of different rolls. Checking that the returned values are different is only a first-order check.
Most of the time that will be sufficient - but very occasionally, randomness could cause your unit test to fail. That's not a Good Thing™.
If, in the case that two consecutive rolls return identical results, we should then check that the two results are actually represented by different objects. This would allow us to refactor the code in future [if that was needed], while being confident that the tests would still always catch any code that didn't behave correctly.
dice = DiceSet.new
first_time = dice.values
second_time = dice.values
assert_not_equal [first_time, first_time.object_id],
[second_time, second_time.object_id], "Two rolls should not be equal"
# THINK ABOUT IT:
# If the rolls are random, then it is possible (although not
# likely) that two consecutive rolls are equal. What would be a
# better way to test this.