We performed a series of N-body dynamical and Monte Carlo simulations based on the Nice model evolution of the giant planets during the episode of their migration starting 4.5 billion years ago. We build an outer Solar System crater chronological model to derive the rate of impacts, and expected number of craters.

Here we focus on several terrains on the Saturnian satellites, which have been surveyed extensively, and estimate their surface ages more accurately with our new modelled crater chronologies that have a higher impact resolution. We give model ages for the surface of Enceladus, a small Saturnian satellite that shows a high amount of activity, and its implications for its formation and tidal dissipation in Saturn.