You are here: Home / Groups / Earths Interior / Wiki / CitcomS / Compare
  • Discoverability Visible
  • Join Policy Invite Only
  • Created 30 Dec 2020


Version 12
by (unknown)
Version 13
by (unknown)

Deletions or items before changed

Additions or items after changed

1 == ==
2 * [/groups/deep_earth/wiki/CitcomS/FAQs FAQs]
3 * [/groups/deep_earth/wiki/CitcomS/Scaling Scaling]
4 * [/groups/deep_earth/wiki/CitcomS/Benchmarks Benchmarks]
5 * [/groups/deep_earth/wiki/CitcomS/3DSphericalMantleConvectionBenchmarks 3D Spherical Mantle Convection Benchmarks]
6 -
* Tutorials
* [/groups/deep_earth/wiki/CitcomS/TutorialsCitcomS Tutorials]
8 == Current Community Development Projects ==
9 Please let the community know what features your are currently working on in CitcomS and projected release date by adding a page here.
11 == User Group ==
12 ''inactive''
14 The Citcom User Group meets every 3rd Thursday of the month to discuss issues of interest to the community. The agenda is USER driven. Please add topics you wish to discuss below.
16 * [/groups/deep_earth/wiki/CitcomS/TeleconferenceSummaries2014 2014 Teleconference Summaries]
18 Next Meeting: April 16 @ 9am PT
20 Video Conferencing:
22 Agenda: No items have been posted
24 Action Items
26 2015 March 19
28 * Begin document on benchmarking on wiki (Scott King). Include ASPECT community when defined.
29 * !PetSc implementation: Identify github branch, discuss installation in a community area
30 == Animations ==
31 Thermo-Chemical Convection for the Mantle. The temperature cross section and a composition isosurface are shown. A dense chemical layer is at the base of the mantle initially. As the layer heats up and convection develops, the layer gets entrained into the ambient mantle. [ YouTube1]
32 [ YouTube2]
34 CitcomS: Evolution of Plume Conduit in the Coupled Model (citcom_movie.gif. This movie is no longer available.)
36 The containing solver (not shown) is a global model, with plate motion imposed on the top surface. The embedded Solver (shown in the animation) is a high-resolution regional model, with boundary conditions retrieved from the containing solver. The black line is the past hotspot location. The red segment is the assumed melt conduit, starting at 160 km depth. The velocity vector is in yellow. The temperature BC at the CMB is shown in color. The plume is visualized as an iso-surface (T=0.08). The numbers of grid points of both meshes are reduced for visualization purposes.
38 == Miscellaneous ==
39 ''Modified Legendre Functions'' (A technical note by Shijie Zhong.): [[File(modified_legendre_functions.pdf)]]