Modeling and Simulation of Tsunami Impact: A Short Review of Recent Advances and Future Challenges

Tsunami modeling and simulation has changed in the past few years more than it has in decades, especially with respect to coastal inundation. Among other things, this change is supported by the approaching era of exa-scale computing, whether via GPU or more likely forms of hybrid computing whose presence is growing across the geosciences. For reasons identified in this review, exa-scale computing efforts will impact the on-shore, highly turbulent regime to a higher degree than the 2D shallow water equations used to model tsunami propagation in the open ocean. This short review describes the different approaches to tsunami modeling from generation to impact and underlines the limits of each model based on the flow regime. Moreover, from the perspective of a future comprehensive multi-scale modeling infrastructure to simulate a full tsunami, we underline the current challenges associated with this approach and review the few efforts that are currently underway to achieve this goal. A table of existing tsunami software packages is provided along with an open Github repository to allow developers and model users to update the table with additional models as they are published and help with model discoverability.

Automated summary

In recent years, tsunami modeling and simulation techniques have undergone significant changes, driven by exa-scale computing and hybrid computing. Different approaches to tsunami simulation have limitations based on flow states, and there are still challenges to overcome in achieving a comprehensive multi-scale modeling infrastructure.