The complete simulation, including meshing, time-stepping, and farfield calculation took 5 hours, 50 minutes on the above-mentioned Amazon instance. The average performance of the timeloop was about 330 MCells/s. The farfield computation requires a significant portion of the total simulation time. The farfield computation could have been reduced with larger theta and phi increments, but, as mentioned previously, for electrically large structures, resolutions of 1 degree or less are required.
After <div><ul> <li style="display: inline-block;"> [[Image:Large struct article ScreenCapture3.png|thumb|left|300px|Figure 1: Geometry of the simulation is complete, periodic unit cell of the dispersive water slab in EM.Tempo.]] </li><li style="display: inline-block;"> [[Image:Large struct article RCS YZ.pngâ|thumb|left|300px|YZ cut of RCS]]</li></ul></div>Â Â Â The nearfield visualization visualizations are also available as seen below:
<div><ul>
<li style="display: inline-block;"> [[Image:Large struct article ScreenCapture1.png||thumb|left|300px|Figure 1: Geometry of the periodic unit cell of the dispersive water slab in EM.Tempo.]] </li>
</ul></div>
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[[Image:Large struct article ScreenCapture3.png|thumb|left|500px|Figure 1: Geometry of the periodic unit cell of the dispersive water slab in EM.Tempo.]]
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[[Image:Large struct article RCS YZ.pngâ|thumb|left|200px|YZ cut of RCS]]