A finite factored set is “just” a set X with a specific choice of decomposition as a product of sets X1×…×Xn. I’m not sure what definition of phase space you’re using, but for a sufficiently general definition of dynamical system (e.g. https://en.wikipedia.org/wiki/Dynamical_system#Formal_definition) I don’t think that the phase space necessarily has coordinates in this way. The position / momentum phase space example is a special case, where your phase space happens to look like a product of copies of the real numbers, which is then getting back to the “factored” part of a finite factored set. I’m not convinced that there’s a deep connection here, though am not very familiar with either concept so could easily be missing something here!
A finite factored set is “just” a set X with a specific choice of decomposition as a product of sets X1×…×Xn. I’m not sure what definition of phase space you’re using, but for a sufficiently general definition of dynamical system (e.g. https://en.wikipedia.org/wiki/Dynamical_system#Formal_definition) I don’t think that the phase space necessarily has coordinates in this way. The position / momentum phase space example is a special case, where your phase space happens to look like a product of copies of the real numbers, which is then getting back to the “factored” part of a finite factored set. I’m not convinced that there’s a deep connection here, though am not very familiar with either concept so could easily be missing something here!