Difference between revisions of "M8 Data Products"

From SCECpedia
Jump to navigationJump to search
Line 1: Line 1:
 
== M8 Mesh Specifications ==
 
== M8 Mesh Specifications ==
  
 +
a proposal for volume output box, please let me know you have any
 +
> suggestions. I came up with this size because Amit wants the box to be less
 +
> than 14 GB in memory requirement to fit into a single node. By skipping
 +
> second grid,
 +
>
 +
>    10125 NX            = x model dimension in nodes
 +
>      5000 NY            = y model dimension in nodes
 +
>      1060 NZ            = z model dimension in nodes
 +
>
 +
>      75  NPX          = number of procs in the x direction
 +
>      40  NPY          = number of procs in the Y direction
 +
>      10  NPZ          = number of procs in the Z direction
 +
>
 +
>        1001 NBGX2        = first x node to contain receivers
 +
>        9000 NEDX2        = last x node to contain receivers
 +
>        501 NSKPX2        = skip of nodes containing x receivers
 +
>        4500 NBGY2        = first y node to contain receivers
 +
>        5000 NEDY2        = last y node to contain receivers
 +
>        2 NSKPY2        = skip of nodes containing y receivers
 +
>        1 NBGZ2        = first z node to contain receivers
 +
>        900 NEDZ2        = last z node to contain receivers
 +
>        2 NSKPZ2        = skip of nodes containing z receivers
 +
>
 +
>        80 NTISKP2      = time skip of seismograms (every nth step)
 +
>
 +
> This would generate 4000x2000x450x4bytes --> 13.4GB each component and step,
 +
> that is 39 TB size outputs in total.
  
 
Volume output range should be this way:
 
Volume output range should be this way:

Revision as of 20:16, 1 October 2010

M8 Mesh Specifications

a proposal for volume output box, please let me know you have any > suggestions. I came up with this size because Amit wants the box to be less > than 14 GB in memory requirement to fit into a single node. By skipping > second grid, > > 10125 NX = x model dimension in nodes > 5000 NY = y model dimension in nodes > 1060 NZ = z model dimension in nodes > > 75 NPX = number of procs in the x direction > 40 NPY = number of procs in the Y direction > 10 NPZ = number of procs in the Z direction > > 1001 NBGX2 = first x node to contain receivers > 9000 NEDX2 = last x node to contain receivers > 501 NSKPX2 = skip of nodes containing x receivers > 4500 NBGY2 = first y node to contain receivers > 5000 NEDY2 = last y node to contain receivers > 2 NSKPY2 = skip of nodes containing y receivers > 1 NBGZ2 = first z node to contain receivers > 900 NEDZ2 = last z node to contain receivers > 2 NSKPZ2 = skip of nodes containing z receivers > > 80 NTISKP2 = time skip of seismograms (every nth step) > > This would generate 4000x2000x450x4bytes --> 13.4GB each component and step, > that is 39 TB size outputs in total.

Volume output range should be this way:

    1001 NBGX2         = first x node to contain receivers
    9000 NEDX2         = last x node to contain receivers
       2 NSKPX2        = skip of nodes containing x receivers
     501 NBGY2         = first y node to contain receivers
    4500 NEDY2         = last y node to contain receivers
       2 NSKPY2        = skip of nodes containing y receivers
       1 NBGZ2         = first z node to contain receivers
     900 NEDZ2         = last z node to contain receivers
       2 NSKPZ2        = skip of nodes containing z receivers
      80 NTISKP2       = time skip of seismograms (every nth step)

M8 Data Products

The following data products are inputs or outputs from the SCEC M8 Project.

Fig 1: M8 Rupture extended for 545km along the Southern San Andreas Fault

Related Data Centers