Romain Beucher

Yeah, one repo, one vision! In an effort to simplify maintenance and compatibility between Underworld and UWGeodynamics, we have decided to merge the codes into a single  repository. Starting with version 2.13, UWGeodynamics will now live under Underworld. All UWGeodynamics functionalities and workflows will remain available to the users.

Folding UWGeodynamics into Underworld

Haibin Yang

Abstract  Numerical models have become an indispensable tool for understanding and predicting the flow of ice sheets and glaciers. Here we present the full-Stokes software package Underworld to the glaciological community. The code is already well established in simulating complex geodynamic systems. Advantages for glaciology are that it provides a full-Stokes solution for elastic–viscous–plastic materials and includes mechanical anisotropy.

ISMIP-HOM benchmark experiments using Underworld

https://doi.org/10.59350/t7ghx-8f823 The following is compatible with Ubuntu 20.04 under

 
 Windows
 

10/11 WSL 2 (

 
 Windows
 

Subsystem for Linux). PETSc, the Portable, Extensible Toolkit for Scientific Computation is the main dependency required for building Underworld. In the following, I will describe my current workflow for configuring and installing PETSc on Linux.

Configuring and Installing PETSc for Underworld

Neng Lu

Free surface in geodynamics simulations

Geodynamic simulations increasingly rely on models with a true free surface to investigate questions of tectonic deformation, mantle convection, and coupling of surface processes and lithosphere dynamics. Historically, most mantle convection simulations have been performed with free-slip boundary conditions at the surface.

Free surface in Underworld

Julian Giordani

John Mansour

How does Underworld scale on a HPC? In this post we showcase how Underworld 2.11 scales across two of Australia's premiere HPC systems.Gadi - https://nci.org.au/our-systems/hpc-systemsMagnus - https://pawsey.org.au/systems/magnus/ The reference model chosen for this scaling showcase is a extended 3D stokes flow: Analytic Solution SolDB3D . Q1P0 elements were used and a fixed solver iteration count for solving the saddle point problem.

Underworld 2.11 Scaling

To test scalability we run weak scaling tests on various HPC machines to check the numerical framework remains robust when pushing for higher fidelity models.

Louis Moresi

To date

 weak scaling

tests have been run on two of the largest computers in Australia:

 Gadi

(NCI) and

 Magnus

(Pawsey). Here we present the results of those tests and discuss:

 Gadi: Weak scaling - SolDB3D Q1


 Gadi: Weak scaling - SolDB3D Q2


 Magnus: Weak scaling - SolDB3D Q2 - v2.10 vs v2.9

Underworld's

 Gadi

installation is setup as a

Scaling in Underworld

Generating Voronoi diagrams and interpolating / smoothing with spline tensions are among a list of new features in Stripy 2.0

Ben Mather

We've been busy creating the next major release of Stripy. To refresh your memory, Stripy is a Python tool for triangulating scattered points either in Cartesian coordinates or on the sphere. It wraps a bunch of Fortran codes in a neat, object-oriented Python interface that can be used for many geographical applications.What's new?

 Spline tension

- a lot of data transformations in Stripy are underpinned by cubic splines (e.g.

Stripy 2.0 released

Version control systems and online-communities such as Github have made contributing to the development of opensource software incredibly easy. That is assuming that people get over their initial fear of sharing their code!  In this short blog post I go through how to submit a pull request to one of our repository. Do not fear and join us for some fun!

Getting started with Pull requests

A new study by an international team of scientists found lockdown measures to stop the spread of COVID-19 led to a 50 per cent reduction in seismic noise around the world. The researchers, including  Meghan Miller and Louis Moresi from ANU analysed datasets from over 300 seismic stations.

Meghan S Miller, Louis Moresi, Research School of Earth Sciences, Australian National University


 A new study by an international team of scientists has found lockdown measures to stop the spread of COVID-19 led to a 50 per cent reduction in seismic noise observed around the world.

It is the largest reduction in human-generated noise ever observed globally.

COVID-19 lockdown leads to seismic noise “quiet period”

How we built a simple dashboard using Github actions with open source software and openly available (FAIR) data.

Meghan S. Miller,

 Australian National University

and Louis Moresi,

 Australian National University


 
 How we built a simple dashboard using Github actions with open source software and openly available (FAIR) data.

Australian Seismometers in Schools - Noise monitoring dashboard

We built a cheap-and-cheerful solution with persistent storage and a binder-like access to notebooks in a repository that is aimed at serving a single classroom. The zero-to-server time is just a few minutes and there is minimal manual configuration.

One of the most popular cloud services for python / jupyter - based codes is binder (www.mybinder.org) which can transform an online repository into a running instance in the cloud with little effort on the part of the owner of that repository to set it up and no effort at all for the end user.

Underworld's  lightweight cloud for online classrooms.

A new paper by John Mansour [https://www.underworldcode.org/author/john] and others has just been published in the Journal of Open Source Software. * Mansour, J., Giordani, J., Moresi, L., Beucher, R., Kaluza, O.,  Velic,  M.,    Farrington, R., Quenette, S., Beall, A., 2020, Underworld2:  Python     Geodynamics Modelling for Desktop, HPC and Cloud, Journal of Open

A new paper by John Mansour and others has just been published in the Journal of Open Source Software. Mansour, J., Giordani, J., Moresi, L., Beucher, R., Kaluza, O.,  Velic,  M., Farrington, R., Quenette, S., Beall, A., 2020, Underworld2:  Python  Geodynamics Modelling for Desktop, HPC and Cloud, Journal of Open

JOSS publication - Underworld 2

(they don't make them like they used to ... )

Cratons are anomalously-strong regions of the continents that have largely resisted tectonic forces for billions of years. How such strong zones could be forged in a hot, low-viscosity, low stress,  early-Earth has been a long-standing puzzle for geologists.

Craton Formation and the Onset of Plate Tectonics

Modelling the relative time-scales of the Rayleigh-Taylor Instability and delamination, using Underworld

With Adam Beall, Cardiff University.Why model sub-continental gravitational instabilities? Within the plate tectonics framework, continents are generally considered to have a much lower density than the asthenosphere below and therefore avoid the kind of recycling that the oceanic crust and lithosphere undergoes.

Modelling Drips and Delamination with Underworld

In honour of Hans Mühlhaus' 70th birthday this month, here are some shear band simulations made with Underworld. We are investigating the role of dilatancy in the geometry of the shear bands for a box of material when a small trapdoor is opened. The extent to which large-scale deformation is needed to release material through the trapdoor depends on how much the material dilates when shear bands form.

Shear Bands with Dilatancy modelled with Underworld

(aka the Underworld renovation project) Underworld [https://www.underworldcode.org/] is our parallel, particle-in-cell, finite element geodynamics code [1]. For the past year or so, the Underworld team [http://www.facebook.com/underworldcode] has been working on a refurbished user interface. We've known for a long time that it needed to be done but we finally bit the bullet.

(aka the Underworld renovation project)

Underworld is our parallel, particle-in-cell, finite element geodynamics code [1]. For the past year or so, the Underworld team has been working on a refurbished user interface. We've known for a long time that it needed to be done but we finally bit the bullet.

Underworld 2

The Underworld 2.9 release is available from Github, as a docker container and via zenodo (doi:10.5281/zenodo.3964957) it is also available through pip install for the first time (see below).Underworld paper in the Journal of Open Source Software   The paper of record for underworld 2 has been published.

Underworld 2.9

-------------------------------------------------------------------------------- Version 2.8 of Underworld has been released recently. As with all major releases, this release brings numerous new features, enhancements and bug fixes. A summary of changes may be found within the usual CHANGES.md [https://github.com/underworldcode/underworld2/blob/v2.8.0b/CHANGES.md] file.

Version 2.8 of Underworld has been released recently. As with all major releases, this release brings numerous new features, enhancements and bug fixes. A summary of changes may be found within the usual CHANGES.md file. As is also usually the case, numerous API changes have been necessary or warranted.

Underworld Release&nbsp;2.8

Making your research reproducible means that you provide the entire workflow from data, through software and post-processing freely available. Not only can somebody repeat your experiments and verify them, they can build upon them. In lab-based disciplines, there are many further challenges, but in research that is predominantly based on data processing, this ought to be an achievable goal.

Alaska Moho Model (Reproducible research with containers)

CITCOM is a geodynamics modelling code based on the finite element method that is designed for planetary evolution modelling where large spatial variations and strong non-linearities occur in the material properties.

We mark January 17, 1994 (the day better known for the Northridge Earthquake) as the birthday of the CITCOM family of codes. I was shaken awake early in the morning, and spent the rest of the day nervously waiting for the next aftershock while I checked that the code was really solving all the test problems quickly and accurately.

30 Years of Citcom, Ellipsis and Underworld

Juan Carlos Graciosa

Introduction and benchmarking

The convection of the Earth’s mantle is usually modelled as an incompressible process, referred to as the Boussinesq approximation. However, in the Earth’s mantle, the pressure increase associated with depth also increases the density due to self-compression (King et al. 2010). In some applications, this compressibility may be non-negligible and modelling it may be desirable.

Compressible convection in cartesian coordinates with Underworld3

TL; DR: Underworld is now Singularity-enabled, making it easier and somewhat quicker to use compared to traditional HPC installs. We demonstrate results using over 10,000 CPUs and more than one billion unknowns for solving the Stokes equation with Underworld 2.16

Benefits of Containers


 Pros:

Simpler to install Underworld and run with Singularity containers. No need to maintain "bare metal" (hard drive) builds. More efficient Python execution. Increased reproducibility and portability.

 Cons:

Underworld and Singularity

The new generation of Apple Mac comes with the new Apple Silicon (M1) chip which has an Arm architecture (as opposed to the older generation that had i386 Intel processor). This brings all manner of troubles and requirements for the development of codes.

How to install Underworld on Mac OSX (Apple Silicon M1)

Underworld 2.10 has dropped... kidding this is a benchmark model proposed by Schmalholz, 2011,  A simple analytical solution for slab detachment.

Underworld 2.10 has been released! Available via

 docker

(recommended),

 pip

and

 source code

. See here for more information on each install process. For a

 quick

taste of Underworld try our binder cloud resource, a temporary "virtual sandbox" to explore the release and example models. Click the button below. This new release includes the following:Enhancements Using UWGeodynamics-2.10.1, see here.

Underworld 2.10

In a recent paper [1], we used Underworld models to examine subduction congestion associated with the ingestion of a continental ribbon. The SE Australian geological record turned out to be a wonderful place to study this process. Here is a short summary of the work for a relatively non-technical audience that we put together and some additional figures which I prepared.

The Dynamics of Continental Accretion

Rebecca Farrington

Viscoelastic materials exhibit the properies of both solids and liquids, with deformation rates dependent on both the viscous stress and elastic stress rate.

Viscoelasticity in Underworld2

How we added an auto-updating set of citations to underworld in our publications webpage.

We need to curate all the publications that we can find that use the underworld geodynamics code and provide this information on our website.

An automated (zotero) bibliography in a webpage

Issues with intra-element discontinuities in PIC-FEM  The classical finite element method (FEM) has been widely used to simulate diverse problems in engineering. Unlike most engineering problems, geological simulations are dominated by emergence of geometrical structures due to the non-linear processes involved.

Stress recovery in Underworld

As mentioned, packages can be installed directly from our conda channel. You may however want to build your own package at some point in the future or you may want to fix some of ours by submitting a Pull Request on github (You are more welcome to do so...) The following goes through the steps of building a conda package for Badlands which contains Python and Fortran code.

How to build Conda packages?

Sharing a workflow environment is also paramount if we want to make sure that reproducibility can be effectively tested. An environment management system such as conda allows us to do so.

Conda packages are now available for most of the underworldcode suite of software


 (Underworld, UWGeodynamics, Lavavu, Stripy) from the geo-down-under conda channel.

Let’s face it. Users don’t want to spend time compiling code on their machine. It is time consuming, requires some specific skills and creates unnecessary hurdles in a workflow.

Here comes Conda...

The Underworld team would like to congratulate Bénédicte Cenki-Tok and co-authors at the University of Sydney and the University of Montpellier on their recent publication,  B. Cenki-Tok, P.F. Rey, D. Arcay;

Underworld publication news: Crustal thickness anomalies in stable continents.

Using physical units and how to appropriately scale a model is a top question users ask when beginning with Underworld. The equations Underworld solves are stated in a physically correct form, they remain valid as long as every material constant, geometry, time, etc., are expressed in the same system.  There is no explicit concept of units no scaling in Underworld, the choice is entirely left to the user.

Using physical units in Underworld

Underworld2 is a python-friendly version of the Underworld geodynamics code which provides a programmable and flexible front end to all the functionality of the code running in a parallel HPC environment. This gives signficant advantages to the user, with access to the power of python libraries for setup of complex problems, analysis at runtime, problem steering, and coupling of multiple problems.

Underworld2 Workshop at CIG 2016 Meeting

Meghan S. Miller,

 Australian National University

and Louis Moresi,

 Australian National University

Our responses to the COVID-19 pandemic have dramatically changed human activity all over the world. People are working from home, schools are closed in many places, travel is restricted, and in some cases only essential shops and businesses are open. Scientists see signs of these changes wherever they look.

Australian cities are quiet during lockdown. Earthquake scientists are making the most of it

Rohan Byrne

As the old truism states, the best way to learn is by doing. This is terribly unhelpful since, really, you can't 'do' anything

 until

you learn. This is a Catch-22 that every grad student encounters; doubly so when it comes to anything involving code, where daily life provides very little in the way of intuition. Unlike other geodynamic modelling software,

 Underworld

is designed to be approached with code.

Getting started: 60 seconds to Underworld

The Underworld Community has been supporting usage of Docker containers for developing and running Underworld powered scientific models.

Developing Underworld using Python Virtual Environments

While huge improvements in usability have been achieved in Underworld2, the installation process is still unfortunately as painful as ever. This difficulty is in large part due to Underworld's numerous dependencies, and also the multiple platforms we try to support. Compounding this, the legacy of a individual user's machine often conspires against success, rarely in obvious ways. Simply, compiling is not fun.

Underworld and Docker (part 1)

Zenodo is a repository for immutable versions of software that are provided with a persistent DOI for the purposes of citation and reproducibility.   Underworld can be cited via a zenodo DOI. There is a master DOI for all releases (10.5281/zenodo.1436039) and releases after 2.6.0 are automatically given a DOI _under the master_.

Cite Underworld from Zenodo

By the way, before you read this post, catch up with how we use docker by reading part 1 Docker allows us to distribute pre-built applications which are hosted in a virtual machine and are therefore platform independent.

Underworld and Docker (part 2)

You are invited to a full-day workshop on Underworld — a computational Geodynamics / Tectonics modelling framework. This is an excellent opportunity for researchers, students, and professionals interested in computational geodynamics and Earth science modelling to learn about Underworld.

📍 Location: Curtin University - 402.323:FF, 9am, May 7, 2025 You are invited to a full-day workshop on

 
 Underworld
 

— a computational Geodynamics / Tectonics modelling framework. This is an excellent opportunity for researchers, students, and professionals interested in computational geodynamics and Earth science modelling to learn about Underworld.

Underworld Geodynamic Modelling Workshop. Perth, 7 May 2025

Introducing Underworld3: Mathematically Self-Describing Modelling in Python for Desktop, HPC and Cloud.

The most recent version of Underworld (v3), is a ground-up rewrite of our widely-used geodynamics modelling code.

Underworld3

Parallel computation puts many CPUs to work on solving a problem much more quickly than one CPU alone. But this only works if the tasks are carefully scheduled and the additional CPUs are not waiting around for something to do. How do we choose the right number of processors for a given problem ?

Running geodynamic models on a single CPU/processor (i.e. serial) is time-consuming and limits us to low resolution.

How many processors should we use to solve Problem X?

A recent paper in the Journal of Open Source Software describes the implementation details of Underworld3 and a brief motivation for the rewritten codebase (Moresi et al, 2025). Underworld3 combines the power of the symbolic algebra package, sympy (Meurer et al, 2017), with the equation templating system in the parallel finite-element framework of PETSc, through petsc4py (Knepley et al, 2013, Dalcin et al, 2011). Underworld3 has the same

Underworld3 published in Journal of Open Source Software

Coupling in Underworld 2 Underworld 2's UWGeodynamic module enables the coupling of tectonics and surface processes models, most notably, with Underworld 2 handling the tectonics and Badlands (Salles, Ding, &amp; Brocard, 2018) handling the surface processes.

Coupling in Underworld 2

Underworld 2's UWGeodynamic module enables the coupling of tectonics and surface processes models, most notably, with Underworld 2 handling the tectonics and Badlands (Salles, Ding, &amp; Brocard, 2018) handling the surface processes.

Underworld Geodynamics Community

Underworld and Docker (part 2)

Underworld and Docker (part 1)

Underworld 2

The Dynamics of Continental Accretion