I've been told that with the Ion Fragment Kit, the maximum input fragment size should be 150 bp so that with adapters the fragment is no longer than 210 bp.

Does de-phasing impose any limits on their read lengths?

I'd have to really think through the dephasing, and probably model it.

Probability that any given molecule will dephase in a given cycle is the 1-repetitive yield (I'll call this Pdephase). If you are going to model this, one option is to assume that dephased reads are lost forever. Alternatively, one can assume they can be rephased under the right circumstances (indeed, Ion claims their flow order encourages recovering dephased molecules).

I'm not convinced that fewer molecules leads to less dephasing until you get to very small numbers. The current beads carry 800K molecules per bead; even with very high repetitive yield you are going to lose some in each round and presumably that is close to a fixed proportion. Clearly, if you get to molecule numbers approach or go below 1/Pdephase then you need to model it as a stochastic process. I'm not sure what Pdephase is, but presumably you could crudely estimate it from the distribution of read lengths.

If you get to really small numbers (but not 1), then a possible issue is that the relative contribution of a dephased molecule in the population becomes large -- so it is rare that a bead has any dephased molecules but a small number of dephased molecules kills your signal-to-noise ratio.

I thought the average read length depended on whether you're using the 314 or the 316 chip.