Sounds like you'll be fine. Allow me to quote myself from a
previous post:
BigEd wrote:
... If a design is out of spec, then it's out of spec - that doesn't mean it won't work. It only means that it might not work, under some conditions and with some in-spec parts. In other conditions or with another in-spec part, it might be entirely reliable.
Remember how it works with silicon fabrication: it's a baking process, and batches come out different. There's variation across the wafer, between wafers in a lot, and between lots. Also, if made in different fabs, variation between fabs. It's quite possible that one whole year of production is fine for a particular not-in-spec design, and another year there'll be a week of production which isn't fine. Could be that it doesn't work, could be that it's unreliable.
The nature of this is that you can't draw a conclusion from a working circuit, at least, no conclusion stronger than "this circuit, presently, seems to work."
You can draw a stronger conclusion from a not-working circuit!
(The other factor you have to take into account with specs is that they cover a range of temperatures and voltages. If you're not soak-testing at the extremes of rated temperature and the extremes of rated voltage, you haven't yet determined the behaviour of your circuit, or of your chip.)
In hobbyist land, we just don't need to be so strict. But this is why specs are the way they are, and it's why most parts will, most of the time, behave well inside the specifications.
(In this case, we weren't originally talking about specs, but about behaviour as some critical frequency is passed - some path became too long and a signal arrived too late relative to a clock. We don't know how much of that path was internal to a chip and how much was between chips, or how many chips it passed through. Quite a lot may have to happen on-chip between a pin and a storage element.)