Getting started: a Greenland ice sheet example

This introduction is intended to be interactive and participatory, and it should work on your personal machine as well as on a supercomputer. Please try the commands and view the resulting files. Do the runs with your own values for the options. We can’t hide the fact that PISM has lots of “control knobs,” but fiddling with them will help you get going. Give it a try!

We get started with an extended example showing how to generate initial states for prognostic model experiments on the Greenland ice sheet. Ice sheet and glacier model studies often involve modeling present and past states using actions like the ones demonstrated here. Our particular choices made here are motivated by the evaluation of initialization methods in [59].

We use data assembled by the Sea-level Response to Ice Sheet Evolution (SeaRISE) assessment process [55]. SeaRISE is a community-organized assessment process providing an upper bound on ice sheet contributions to sea level in the next 100–200 years, especially for the IPCC AR5 report in 2013.

This example is a hands-on first look at PISM. It is not an in-depth tutorial, and some details of what is happening are only explained later in this Manual, which thoroughly discusses PISM options, nontrivial modeling choices, and how to preprocess input data.

The basic runs here, mostly on coarse \(20\) and \(10\,\textrm{km}\) grids, can be done on a typical workstation or laptop. PISM is, however, designed to make high resolution (e.g. \(5\,\textrm{km}\) to \(\sim 500\,\textrm{m}\) grids for whole-Greenland ice sheet modeling) possible by exploiting large-scale parallel processing. See [59], [118], [79], among other published high-resolution PISM examples.


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