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Shown in Table 8 are the mesh sizes for
the three-dimensional shock-bubble interaction test cases.
The number of mesh vertices were 262K, 568K, and 1.03M.
This test case computes the interaction of a shockwave moving through
a low density fluid and interacting with a bubble of high density fluid.
The explicit three-stage time scheme of Shu and Osher [#!shu!#]
was used to advance the solution in time.
Table 8:
Shockwave-bubble test Cases
| Test cases |
No. vertices |
Code |
| 3d Shock-bubble interaction |
262K |
AEDIF |
| 3d Shock-bubble interaction |
568K |
AEDIF |
| 3d Shock-bubble interaction |
1.03M |
AEDIF |
|
Figure 4:
Test case: Shockwave-bubble symmetry plane density profile
 |
Figure 4 and Figure 5
show the initial symmetry plane density contours (10:1 density ratio)
and the three-dimensional density contours after 720 time steps at which time
the shockwave has passed through the bubble reflected off the top boundary
and passed through the bubble a second time.
Figure 5:
Shockwave-bubble density contours after 720 time steps
 |
Table 9:
262K mesh: Comparison of Globus performances on individual clusters
| Run type |
Globus |
Globus |
Globus |
Globus |
| Name of cluster |
INRIA-nina |
IUSTI |
INRIA-pf |
CEMEF |
| Processor speed |
2 GHz |
2 GHz |
1 GHz |
1 GHz |
| LAN speed |
1.00 Gbps |
100 Mbps |
100 Mbps |
100 Mbps |
| cache |
512K |
512K |
256K |
256K |
| RAM/Node |
1 GB |
1 GB |
1/2 GB |
1/2 GB |
| Executable size |
871 MB |
871 MB |
871 MB |
871 MB |
| Number of processors |
8 |
8 |
8 |
8 |
| Total computational time |
331.4 |
341.2 |
564.7 |
759.6 |
| Local inter-comm. time |
2.0 |
7.2 |
9.1 |
12.6 |
| Global inter-comm. time |
8.6 |
9.5 |
16.6 |
35.3 |
| Computation ratio |
1.00 |
1.03 |
1.7 |
2.3 |
| Communication/Work |
0.03 |
0.05 |
0.05 |
0.07 |
|
Next: 262K mesh
Up: latex2html_globus
Previous: Numerical Algorithm
Stephen Wornom
2004-09-10