Difference between revisions of "M8"

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== M8 Data Products ==
 
== M8 Data Products ==
  
[[M8 Data Products]] including both simulation input and output data files are posted on this wiki page as they become available.
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M8 simulation input data files and simulation results are posted on this wiki page as they become available.
 
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*[[M8 Data Products]]
  
 
== SCEC and CME-related Web Sites ==
 
== SCEC and CME-related Web Sites ==
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* [http://scec.usc.edu/websims/ SCEC Websims Data Management Site]
 
* [http://scec.usc.edu/websims/ SCEC Websims Data Management Site]
 
* [http://www.cseptesting.org/ SCEC CSEP Testing Center]
 
* [http://www.cseptesting.org/ SCEC CSEP Testing Center]
 
  
 
== SCEC Computer Science Collaborative Organizations and Resource Providers ==
 
== SCEC Computer Science Collaborative Organizations and Resource Providers ==
 
  
 
* [http://www.sdsc.edu/ SDSC]
 
* [http://www.sdsc.edu/ SDSC]
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* [http://www.ncsa.illinois.edu/BlueWaters/ Blue Waters]
 
* [http://www.ncsa.illinois.edu/BlueWaters/ Blue Waters]
 
* [http://www.opensciencegrid.org/ Open Science Grid]
 
* [http://www.opensciencegrid.org/ Open Science Grid]
 
  
 
== M8-related 2010 SCEC Annual Meeting Posters: ==
 
== M8-related 2010 SCEC Annual Meeting Posters: ==
 
  
 
*[http://scecdata.usc.edu/maechling/CME_SCEC_AM_2010_v3.pdf SCEC/CME Overview]
 
*[http://scecdata.usc.edu/maechling/CME_SCEC_AM_2010_v3.pdf SCEC/CME Overview]

Revision as of 20:39, 20 September 2010

Fig 1: M8 Dynamic Rupture simulation was run in March 2010 on NICS Kraken.

SCEC M8 Simulation

The SCEC M8 Simulation involved a very large dynamic rupture, run on NSF TeraGrid NICS Kraken in March, 2010, and a very large earthquake wave propagation simulation, run on DOE INCITE NCCS Jaguar in April 2010. M8 can be described as the largest earthquake wave propagation simulation ever performed for the following reasons:

  1. The M8 computational scale has a combined outer/inner scale of 10 ^ 4.3 (810km/40m)
  2. The April 2010 M8 science run, using SCEC's AWP-ODC software, achieved sustained performance on a real science problem for 24 hours in excess of 220Tflop/s. When this M8 simulation, no other seismic wave propagation software had achieved more than 100Tflop/s.
  3. The M8 wave propagation simulation, run on NCCS Jaguar, ran on 223k cores. No other seismic wave propagation application has been used on real science runs using more cores than M8.
  4. The M8 simulation software, SCEC's AWP-ODC, scaled nearly perfectly up to 223k cores.
  5. The M8 input velocity mesh required 435 billion grid points more than any wave propagation simulation at the time M8 was run.
Fig 2: M8 Wave propagation simulation was run in April 2010 on NCCS Jaguar.

The M8 Project is led by Yifeng Cui, Kim Olsen, and Thomas H. Jordan.

Fig 3: Two minutes after origin time for the SCEC M8 simulation showing velocity magnitude through local elevation.

M8 Data Products

M8 simulation input data files and simulation results are posted on this wiki page as they become available.

SCEC and CME-related Web Sites

SCEC Computer Science Collaborative Organizations and Resource Providers

M8-related 2010 SCEC Annual Meeting Posters: