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software:pylith:plans:2016 [2016/06/21 17:34] baagaard [Version 3.0 (Spring 2017)] |
software:pylith:plans:2016 [2016/06/21 23:26] (current) baagaard [Features for Future Releases] |
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* Incompressible elasticity via a pressure field {{intermediate.png}} | * Incompressible elasticity via a pressure field {{intermediate.png}} | ||
* Elasticity + heat flow {{difficult.png}} | * Elasticity + heat flow {{difficult.png}} | ||
- | * Elasticity + fluid flow {{difficult.png}} | + | * Poroelasticity {{difficult.png}} |
- Higher order basis functions {{difficult.png}} [20%] | - Higher order basis functions {{difficult.png}} [20%] | ||
* Allow user to select order of basis functions independent of the mesh (which defines the geometry). This permits higher resolution for a given mesh. | * 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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- Improve fault formulation for spontaneous rupture {{intermediate.png}} [10%] | - Improve fault formulation for spontaneous rupture {{intermediate.png}} [10%] | ||
* Removes inner solve associated with updating Lagrange multipliers. This will significantly accelerate the nonlinear solve. | * Removes inner solve associated with updating Lagrange multipliers. This will significantly accelerate the nonlinear solve. | ||
- | - Add viscoelastic Drucker-Prager bulk rheology {{intermediate.png}} [0%] | + | - Add Drucker-Prager with relaxation to yield surface bulk rheology {{intermediate.png}} [0%] |
===== Version 3.1 (late 2017) ===== | ===== Version 3.1 (late 2017) ===== | ||
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* User-specified initial solution | * User-specified initial solution | ||
* Checkpoint via special spatial database? | * Checkpoint via special spatial database? | ||
+ | * Reorgzniation for time-dependent Green's functions and adjoints | ||
- Multilevel nonlinear solve | - Multilevel nonlinear solve | ||
- Radial basis functions for spatial databases {{intermediate.png}} [0%] | - Radial basis functions for spatial databases {{intermediate.png}} [0%] | ||
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* Minor features | * Minor features | ||
- GUI interface for specifying parameters {{difficult.png}} [25%] | - GUI interface for specifying parameters {{difficult.png}} [25%] | ||
- | - Use KD tree search algorithm to allow output of time histories at an arbitrary location {{difficult.png}} | ||
- Begin implementation of data assimilation capabilities via adjoint equation. | - Begin implementation of data assimilation capabilities via adjoint equation. | ||
- Combined prescribed slip / spontaneous rupture fault condition {{difficult.png}} | - Combined prescribed slip / spontaneous rupture fault condition {{difficult.png}} | ||
* 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. | * 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. | ||
- Use threading to accelerate integrations on multi-core machines. {{difficult.png}} | - Use threading to accelerate integrations on multi-core machines. {{difficult.png}} |