Note: This is answered by user974514 below, but there was some discussion outside of the "answer", so I paraphrased the final answers inline here.
I've asked around for the exact usages of the terms "quantile" and "percentile" and "rank" and I'm getting conflicting answers from my colleagues. I'll just pose a set of questions to narrow down the exact terminology.
1) Given: a probability CDF. $\mathbb{P}(X \leq A) = B$. $X$ is the random variable. Domain of $B$ is obviously real number in interval $[0, 1)$, and $A$ can be any real number (or other totally-ordered set). Is "quantile" or "percentile" applicable to either $A$ or $B$ (which one)? If $A$ is called a "quantile" (or "percentile"), than what is $B$ called - a "[quantile/percentile] rank", or just "cumulative probability"?
A: $A$ is a quantile. $B$ is the cumulative probability. If $B$ is a multiple of 1/100, then the quantile is a percentile (a 100-quantile). When discussing $n$-quantiles in the CDF for various $n$ that have the same value $A$, it's helpful to be explicit with term "value", i.e. $A$ is the "quantile value".
2) Is the term "quantile" only applicable for equally-sized intervals in a CDF? Or can it be for any arbitrary $A$ (or $B$; depending on answer to above question) such that $\mathbb{P}(X \leq A) = B$? For example, what if the probability $B$ is an irrational number, so that it's impossible for it be an interval boundary of equally-sized intervals in a CDF?
A: For a CDF, quantiles must be points on equally-sized intervals of that CDF.
3) Given: list of $N$ sample datums (of a totally-ordered set). If I want a value $A$ such that $B$ datums are at most $A$, and assuming that $A$ is a value in the $N$ sample datums, where do the terms "percentile" and "quantile" and "rank" fit in here? For example, if I want the value such that 50% datums are at most this value, can that value be called any of: 50th percentile, 2nd quartile, median? Or does it have to be in terms of $N$ quantiles, e.g. 3rd $N$-quantile?
(I'm aware that if $A$ were not in the list of sample datums, there would have to be some rounding or interpolation, but that's not important to these questions.)
A: Rephrased: given $N$ sample datums, if $A$ is the $k$-th $N$-quantile, then $A$ is not less than $\frac{k}{N}$ values out of the $N$ values. Assuming the samples are taken randomly, $\frac{k}{N}$ is the cumulative probability. $\frac{k}{n} \cdot N$ (with rounding) is the rank for $n$-quantiles, e.g. $\frac{k}{100} \cdot N$ is the percentile rank.
3a) Can I define percentiles in term of fractions, and if so, what is that fraction called? e.g. in the above example, if the 50-th percentile is called the "percentile", then what is the 0.5 called? This is analogous to what I called "cumulative probability" in the CDF case.
A: Assuming samples are taken randomly, the "fraction" (see above) is the cumulative probability.
4) Along the same lines, when I have a value that is called the "P90", what exactly is that - the 90th percentile? Can it be called the 9th decile too? How about 0.9 [something]?
A: Except for "0.9", they are all equivalent - just different $n$-quantiles with the same quantile value (and cumulative probability). The 0.9 is the cumulative probability.
5) Is it valid to have a non-integral quantile/percentile? e.g. 55.55th percentile or 2.5th quartile?
A: Yes, but given non-integral $k$ and given $k$-th $n$-quantile, you'd typically scale both to some $(k \cdot m)$-th $(n \cdot m)$-quantile, where $(k \cdot m)$ is integral. For example, 2.5-th quartile is the same as the 5-th 8-quantile. A common exception would be the "Px" notation, where things like "P99.9" are common.