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Overview table for the owner and an approver of this feature

1.Description

Land -Ice Add Land Ice Meshes to ACME
2.OwnerMatt Hoffman
3.Created// date
4.Equ(error)(tick)
5.Ver(error)
6.Perf(error)
7.Val(error)
8.Approver 
9.Approved Date 

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Requirements

Requirement: Coarse, uniform resolution meshes for testing

Date last modified: 2015-9-23
Contributors: Matt Hoffman, Stephen Price

Testing of the new ice sheet and climate model coupling in ACME will require inexpensive, coarse, uniform resolution meshes for the land ice model component. This mesh will be used for testing MPAS-LI as an active component in ACME and also for testing initial coupling to the other components of the climate model.

 

Requirement: Variable resolution meshes for static ice sheet configurations

Date last modified: 2015-9-23
Contributors: Matt Hoffman, Stephen Price

Some ACME simulations may choose to have an inactive ice sheet component. In this case, we can still allow for thermodynamic coupling between the ocean and ice sheet (e.g., so that the ocean can circulate under static ice shelves and exchange heat and fresh water fluxes with the ice sheet). This will require variable resolution meshes with intermediate spatial dimensions.

 

Requirement: Variable resolution meshes for active ice sheet configurations

Date last modified: 2015-9-23
Contributors: Matt Hoffman, Stephen Price

Accurate simulation of marine ice sheet dynamics - e.g., retreat and advance of ice sheet grounding lines - requires extremely high spatial grid resolution (>=1km) in limited portions of the computational domain covered by the ice sheet. ACME simulations with an active ice sheet component will require variable resolution meshes that allow for this localized high resolution in order to insure accurate simulations of marine ice sheet evolution.

 

Algorithmic Formulations

Design solution:

short-description-of-proposed-solution-here

Uniform and variable resolution SCVT generation

Date last modified:

// date

2015-9-23
Contributors: Matt Hoffman, Stephen Price

 

(add your name to this list if it does not appear)

 

For each requirement, there is a design solution that is intended to meet that requirement. Design solutions can include detailed technical discussions of PDEs, algorithms, solvers and similar, as well as technical discussion of performance issues. In general, this section should steer away from a detailed discussion of low-level software issues such as variable declarations, interfaces and sequencing.

 

Design and Implementation

Implementation: short-desciption-of-implementation-here

Date last modified: // date
Contributors: (add your name to this list if it does not appear)

 

This section should detail the plan for implementing the design solution for requirement XXX. In general, this section is software-centric with a focus on software implementation. Pseudo code is appropriate in this section. Links to actual source code are appropriate. Project management items, such as svn branches, timelines and staffing are also appropriate. How do we typeset pseudo code?

 

The algorithmic descriptions for uniform and variable resolution SCVT mesh generation (with the latter based on the use of analytic and data density functions), which will be used here, are well described in previously published papers (e.g., Ringler et al., 2008, linked from the references section below).

Design and Implementation

Implementation: Coarse, uniform resolution Greenland mesh

Date last modified: 2015-9-23
Contributors: Matt Hoffman, Stephen Price

 

A uniform resolution, 20 km Greenland ice sheet mesh has been designed for the purposes of testing MPAS-LI as an active component in ACME and for testing the coupling between the land and land ice components.

This grid is currently available within ACME (sname="0.9x1.25_gx1v6_gis20"    alias="f09_g16_g").


Implementation: Coarse, uniform resolution Antarctic mesh

Date last modified: 2015-9-23
Contributors: Matt Hoffman, Stephen Price

 

A uniform resolution, 20 km Antarctic ice sheet mesh has been designed for the purposes of testing MPAS-LI as an active component in ACME and for testing the "plumbing" of ice sheet - to - ocean and ice sheet - to - land coupling.

This grid is currently available on an ACME branch (sname="0.9x1.25_gx1v6_ais20"    alias="f09_g16_a").

 

Implementation: Coarse, variable resolution Antarctic mesh

Date last modified: 2015-9-23
Contributors: Matt Hoffman, Stephen Price

 

A variable resolution, ~15-4 km Antarctic ice sheet mesh has been designed for the purposes of more rigorous testing of MPAS-LI as an active component in AMCE (i.e., allowing for better resolution of localized dynamics and flow features) and for use in configurations where a static, but high-resolution representation of the ice sheet geometry may be needed for thermodynamic coupling to the ocean.

This grid exists and has been tested extensively in MPAS-LI standalone simulations but has not yet been added to ACME.

 

Implementation: Fine, variable resolution Antarctic mesh

Date last modified: 2015-9-23
Contributors: Matt Hoffman, Stephen Price

 

A variable resolution, ~20-1 km Antarctic ice sheet mesh will be designed for use in any ACME simulation with an active Antarctic ice sheet component. The mesh generation process is expected to follow similarly from the process of designing and generating the ~15-4 km variable resolution mesh. The necessary density functions for generating the mesh are already in hand.

Planned Verification and Unit Testing 

Verification and Unit Testing: short-desciption-of-testing-here

Date last modified:  
Contributors: (add your name to this list if it does not appear)

 

How will XXX be tested? i.e. how will be we know when we have met requirement XXX. Will these unit tests be included in the ongoing going forward?

Planned Validation Testing 

Validation Testing: short-desciption-of-testing-here

Date last modified:
Contributors: (add your name to this list if it does not appear)

 

How will XXX be tested? What observational or other dataset will be used?  i.e. how will be we know when we have met requirement XXX. Will these unit tests be included in the ongoing going forward?

Planned Performance Testing 

Performance Testing: short-desciption-of-testing-here

Date last modified:
Contributors: (add your name to this list if it does not appear)

 

How will XXX be tested? i.e. how will be we know when we have met requirement XXX. Will these unit tests be included in the ongoing going forward?

 

References


Ringler, T., L. Ju, and M. Gunzburger. 2008. A multiresolution method for climate system modeling: application of spherical centroidal Voronoi tessellations. Ocean Dynamics, 58(5), 475-498. link