There are two schools of thought with regard to how the auditory central processor achieves good frequency resolution. The first is based on the steep 300 dB/oct rolloff; the second on the fact that the action potential (AP) output of neurons associated with hair cells is partially synchronized to the incoming fin or its subharmonics. The main objection to this proposal is that synchronization seems to fail for high-frequency audio inputs. It is shown that this failure may be due to experimental difficulties. It is impossible to avoid trauma to the cochlea and/or auditory nerve. To study synchronization at 10,000 Hz, the interspike-interval (ISI) histogram requires a timing accuracy of 4 microseconds or better despite input AP's that have a rise time of 200 microseconds. Synthetic AP ISI histograms are derived for a) unstimulated; b) fully synchronized; c) low-frequency; and d) high-frequency audio input conditions. The latter are compared with typical experimentally derived data. Hypothetical processing by reverberatory neurons is also considered.