Assuming IEEE-754 floating-point:
a >= b is always equivalent to
b <= a.*
a >= b is equivalent to
!(a < b), unless one or both of
b is NaN.
a == b is always equivalent to
b == a.*
a == b is equivalent to
!(a != b), unless one or both of
b is NaN.
More generally: trichotomy does not hold for floating-point numbers. Instead, a related property holds [IEEE-754 (1985) §5.7]:
Four mutually exclusive relations are possible: less than, equal, greater than, and unordered. The last case arises when at least one operand is NaN. Every NaN shall compare unordered with everything, including itself.
Note that this is not really an "anomaly" so much as a consequence of extending the arithmetic to be closed in a way that attempts to maintain consistency with real arithmetic when possible.
[*] true in abstract IEEE-754 arithmetic. In real usage, some compilers might cause this to be violated in rare cases as a result of doing computations with extended precision (MSVC, I'm looking at you). Now that most floating-point computation on the Intel architecture is done on SSE instead of x87, this is less of a concern (and it was always a bug from the standpoint of IEEE-754, anyway).