Difference between revisions of "SC10 Planning"
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'''SCEC SC10 Planning''' | '''SCEC SC10 Planning''' | ||
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+ | This is the planning site for SCEC's SC10 meeting. | ||
+ | |||
+ | == Draft M8 Presentation == | ||
+ | *[http://scec.usc.edu/scecwiki/images/1/16/Jordan_SC10_v1_pjm.ppt Maechling M8 Draft] | ||
+ | |||
+ | == M8 Animation Topics == | ||
+ | |||
+ | Title: Ruptures to Rafters in Real-time: | ||
+ | |||
+ | Abstract: | ||
+ | SCEC uses the TeraGrid supercomputers to study what might happen if there is a big earthquake in California. The SCEC supercomputer simulations help us understand what happens in the earth and on the earth during an earthquake. | ||
+ | |||
+ | Concept: | ||
+ | Earthquake begins as video starts. Viewer’s location in a building in California is shown and video shows various 3D and 4D images as the event occurs with wave progressing towards the viewers location. Waves arrive and shake the structure the viewer is in. Closes with reminder to prepare and ways to contribute through sites like did you feel it and quake catcher projects. | ||
+ | |||
+ | The 3D and 4D nature of SCEC models and simulations give us good material for a 3D movie. | ||
+ | |||
+ | Surface Data: | ||
+ | Surface coverings | ||
+ | Topography | ||
+ | Buildings | ||
+ | Lidar resolution of faults | ||
+ | |||
+ | Sub-surface: | ||
+ | fault geometries | ||
+ | sedimentary basins | ||
+ | hypocenters | ||
+ | |||
+ | Varying with Time: | ||
+ | GPS | ||
+ | Event catalog over several years | ||
+ | |||
+ | Fault rupture: | ||
+ | Fault surface and friction laws | ||
+ | Characteristic complex rupture | ||
+ | Super shear mach cone | ||
+ | |||
+ | Wave propagation: | ||
+ | from hypocenter to surface | ||
+ | directivity of pulse | ||
+ | wave guide | ||
+ | basin amplifications | ||
+ | |||
+ | Sensors used to detect the earthquake: | ||
+ | send in ground motions | ||
+ | figure our where the earthquake is | ||
+ | forecast warning ahead | ||
+ | shakemaps showing intensity are produced | ||
+ | Structure models affected by ground motions: | ||
+ | Structures of different heights respond differently | ||
+ | Same structure geographically close could experience very different motions | ||
+ | Model could detect possible damage in real-structure before inspection could occur | ||
+ | |||
+ | 3D viz of wave in basins: | ||
+ | animation of surface waves and body waves | ||
+ | |||
+ | EEW Animation: | ||
+ | |||
+ | Community Contribution of Response information: | ||
+ | |||
+ | ShakeOut Practice: | ||
+ | |||
+ | ---- | ||
*Telecon 17 September 2010 | *Telecon 17 September 2010 | ||
*M8 SC10 Planning: Friday 1:30-2:30pm | *M8 SC10 Planning: Friday 1:30-2:30pm | ||
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− | |||
Proposed Agenda: 17 September | Proposed Agenda: 17 September | ||
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#M8 data on websims and scaling (should websims scale it?) | #M8 data on websims and scaling (should websims scale it?) | ||
#M8 animations (I think we need at least three - full (I've been thinking maybe 368 seconds to match simulation time), ~1 min | #M8 animations (I think we need at least three - full (I've been thinking maybe 368 seconds to match simulation time), ~1 min | ||
− | |||
Action Items: | Action Items: | ||
*Broadband completed and used with buildings | *Broadband completed and used with buildings | ||
+ | *EEW sites | ||
+ | *Site presentation | ||
---- | ---- |
Latest revision as of 05:17, 18 November 2012
SCEC SC10 Planning
This is the planning site for SCEC's SC10 meeting.
Draft M8 Presentation
M8 Animation Topics
Title: Ruptures to Rafters in Real-time:
Abstract: SCEC uses the TeraGrid supercomputers to study what might happen if there is a big earthquake in California. The SCEC supercomputer simulations help us understand what happens in the earth and on the earth during an earthquake.
Concept: Earthquake begins as video starts. Viewer’s location in a building in California is shown and video shows various 3D and 4D images as the event occurs with wave progressing towards the viewers location. Waves arrive and shake the structure the viewer is in. Closes with reminder to prepare and ways to contribute through sites like did you feel it and quake catcher projects.
The 3D and 4D nature of SCEC models and simulations give us good material for a 3D movie.
Surface Data: Surface coverings Topography Buildings Lidar resolution of faults
Sub-surface: fault geometries sedimentary basins hypocenters
Varying with Time: GPS Event catalog over several years
Fault rupture: Fault surface and friction laws Characteristic complex rupture Super shear mach cone
Wave propagation: from hypocenter to surface directivity of pulse wave guide basin amplifications
Sensors used to detect the earthquake: send in ground motions figure our where the earthquake is forecast warning ahead shakemaps showing intensity are produced Structure models affected by ground motions: Structures of different heights respond differently Same structure geographically close could experience very different motions Model could detect possible damage in real-structure before inspection could occur
3D viz of wave in basins: animation of surface waves and body waves
EEW Animation:
Community Contribution of Response information:
ShakeOut Practice:
- Telecon 17 September 2010
- M8 SC10 Planning: Friday 1:30-2:30pm
Proposed Agenda: 17 September
- What simulations remain to run
- Access issues to TG and INCITE
- M8 VShaker data and metadata we are preparing for Amit (is it what you expect and enough?)
- CVM-T update to new algorithm (Patrick has updated to Geoff's latest algorithm)
- M8 1Hz and 2Hz meshes (do we need one or both? How soon)
- M8 data on websims and scaling (should websims scale it?)
- M8 animations (I think we need at least three - full (I've been thinking maybe 368 seconds to match simulation time), ~1 min
Action Items:
- Broadband completed and used with buildings
- EEW sites
- Site presentation
Related Links