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DevelopmentPlan 2019 04
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Multiphysics [30%]
- Implement modular approach for specifying governing equations and computing residuals and Jacobians.
- Incompressible elasticity via a pressure field [20%]
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Higher order basis functions [100%]
Allow user to select order of basis functions independent of the mesh (which defines the geometry). This permits higher resolution for a given mesh.
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Switch to using PETSc time-stepping (TS) algorithms. [75%]
Replace simple Python-based time-stepping implementations with PETSc time-stepping algorithms that provide support for higher order discretization in time and real adaptive time stepping.
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Modular approach for initial conditions
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Testing via Method of Manufactured Solutions
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Improve fault formulation for spontaneous rupture [10%]
Removes inner solve associated with updating Lagrange multipliers. This will significantly accelerate the nonlinear solve.
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Add additional multiphysics implementations and rheologies
- Poroelasticity [5%]
- Convert to Python 3
- Drucker-Prager bulk rheology with relaxation to yield surface
- Elasticity + heat flow
- Reorganize output for time-dependent Green's functions and adjoints
- Multilevel nonlinear solve
- Radial basis functions for spatial databases
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Earthquake cycle modeling
Same mesh for dynamic and quasi-static parts (dynamic → quasi-static, quasi-static → dynamic, complete cycle)
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Create strain hardening/softening 2-D and 3-D Drucker-Prager elastoplastic models.
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Moment tensor point sources [5%]
Moment tensor point sources provide a mesh independent deformation source that is better suited for Green's function calculations than slip on a fault surface via cohesive cells.
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Major features
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Earthquake Cycle Modeling
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Different meshes for dynamic and quasi-static parts
Requires interpolation of fields between different meshes/discretizations and may require extrapolation of solutions when quasi-static problems span a larger domain than the dynamic problems.
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Data assimilation
Use flexibility of multiphysics implementation to support inclusion of data assimilation
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Minor features
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Begin implementation of data assimilation capabilities via adjoint equation.
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Combined prescribed slip / spontaneous rupture fault condition
Use fault constitutive model to control slip on fault except during episodes of prescribed slip. Need some way to describe when to turn on/off prescribed slip.
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