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Modeling the thermal structure
09 Jan 2021 | Contributor(s): Laurent G.J. Montési, Mark D. Behn, Jennifer L. Barry
Modeling the thermal structure of plate boundaries with COMSOL Multiphysics (FEMLAB). August 18-19, 2006. Laurent G.J. Montési, Mark D. Behn, Jennifer L. Barry.
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Multi-Scale Parallel computing in Laboratory of Computational Geodynamics
24 Jan 2021 | Contributor(s): David Yuen
Multi-Scale Parallel computing in Laboratory of Computational Geodynamics, Chinese Academy of Sciences. August 18-19, 2006. David Yuen.
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Petrological-thermochemical modeling of geodynamic processes - methodology and examples
09 Jan 2021 | Contributor(s): David Yuen, Taras Gerya, James Connolly
Petrological-thermochemical modeling of geodynamic processes - methodology and examples. August 18-19, 2006. David Yuen, Taras Gerya, James Connolly.
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Petrological-thermomechanical modelling
09 Jan 2021 | Contributor(s): David Yuen, James Connolly, Taras Gerya
Self-consistent petrological-thermomechanical modelling: new geodynamic modelling approach. August 18-19, 2006. Taras V. Gerya , James A.D. Connolly, David A. Yuen.
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PyLith
27 Oct 2021 | Software: Download | Contributor(s): Brad Aagaard (primary-developer), Charles A. Williams (primary-developer), Matthew Knepley (primary-developer)
PyLith is a finite-element code for dynamic and quasistatic simulations of crustal deformation, primarily earthquakes and volcanoes. Binary packages are available for macOS and Linux. Detailed installation instructions for the binary packages are in the PyLith manual.
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Relax
26 Oct 2021 | Software: Download | Contributor(s): Sylvain Barbot (primary-developer)
Relax implements a semi-analytic Fourier-domain solver and equivalent body forces to compute quasi-static relaxation of stress perturbation.It is not an acronym, it's a motto!The open-source program Relax evaluates the displacement and stress in a half space with gravity due to...
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Responsibilities of the EC
12 Oct 2021 | Documents | Contributor(s): Executive Committee, Science Steering Committee
Describes the roles and responsibilities of the Executive Committee.Approved 24 August 2021
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Responsibilities of the SSC
12 Oct 2021 | Documents | Contributor(s): Executive Committee, Science Steering Commitee
Roles and responsibilities of the Science Steering Committee.Approved 24 August 2021.
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Responsibilities of Working Groups
12 Oct 2021 | Documents | Contributor(s): Executive Committee, Science Steering Committee
Roles and responsibilities of Working Groups.Approved 24 August 2021.
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SELEN
25 Oct 2021 | Software: Download | Contributor(s): Giorgio Spada (primary-developer), Daniele Melini (primary-developer)
SELEN: a program for solving the "Sea Level Equation.The open source program SELEN solves numerically the so-called "Sea Level Equation" (SLE) for a spherical, layered, non-rotating Earth with Maxwell viscoelastic rheology. The SLE is an integral equation that was introduced in...
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Software Tools for Magma Convection at CIG
09 Jan 2021 | Workshops | Contributor(s): Shijie Zhong
The Software Tools for Mantle Convection at CIG: The Current State. August 18-19, 2006. Shijie Zhong.
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SSC May 2008 Meeting Presentations
07 Feb 2021 | Documents | Contributor(s): Staff
Presentations from the SSC Meeting held at CIG on May 29-30, 2008.
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Subduction Benchmarks
09 Jan 2021 | Workshops | Contributor(s): Scott King, Claire Currie, Richard Katz, Marc Spiegelman., Peter van Keken
A benchmark for the modeling of subduction zone thermal structure. August 18-19, 2006. Scott King, Peter van Keken, Claire Currie, Richard Katz, Marc Spiegelman.
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The Path to Petascale Computing in Geodynamics
29 Jan 2021 | Documents | Contributor(s): Staff
The Path to Petascale Computing in Geodynamics. A report by the Science Steering Committee.Computational Infrastructure for Geodynamics (CIG). December 5, 2006.
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Two phase theory of compaction and damage
09 Jan 2021 | Workshops | Contributor(s): David Bercovici, Yanick Ricard
Two phase theory of compaction and damage. August 18-19, 2006. David Bercovici, Yanick Ricard.
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Virtual Quake
26 Oct 2021 | Software: Download | Contributor(s): John M. Wilson, Kasey W. Schultz, Eric M. Heiein, Michael K. Sacks, John B. Rundle
Virtual Quake (formerly Virtual California) is a boundary element code that performs simulations of fault systems based on stress interactions between fault elements to understand long term statistical behavior.