#3d earthquake particle motion playback Pc#
So vast is the amount of information being calculated that, even using a massive parallel PC cluster of 500 machines, simulations can take five days. To accurately calculate the force that a tsunami can exert on a building, or simulate flooding patterns or river surges in an urban area, however, it will be essential to have a 3D simulation that takes into account data including the shape of buildings, levees and other three-dimensional objects that will affect the power of the tsunami and the speed of a river surge. Tsunami simulations have been performed around the world for some time. As a tsunami-preparedness measure, there is a stronger demand than ever before to use tsunami-simulation technology to predict flooding, assess the vibration resistance of structures, and analyze the mechanisms behind the structural failure of buildings. This highlighted the need to elucidate the mechanisms behind these structural failures. In towns such as Onagawa in Miyagi Prefecture, the tsunami knocked over reinforced concrete buildings, an unprecedented failure. The Great East Japan Earthquake of March 11, 2011, and the tsunami it caused devastated the Tohoku region. While applying this technology to the processing power of computers, Fujitsu seeks to support the recovery and revival of the region affected by the Tohoku earthquake by continuing to leverage ICT in facilitating initiatives to build a society that is more resilient to disasters. This promises the production of reliable disaster-response and disaster-mitigation tactics. Results of this research could be used in the design of levees and evacuation shelters, and to develop guidelines for hazard maps and evacuation routes. This is to be achieved by integrating a 3D fluid simulation technology that runs on large-scale parallel computers using a Fujitsu-developed smoothed-particle hydrodynamics ( 1) method, together with a 2D tsunami-propagation simulation technique developed by Japan's preeminent tsunami researcher, Professor Fumihiko Imamura, director of the Disaster Control Research Center in Tohoku University. The goal of this research is to develop a new 3D tsunami simulation technique.
The research will primarily focus on simulating inundation in urban areas and rivers and elucidating the mechanisms leading to structural failures of reinforced concrete buildings. Fujitsu today announced that it has signed a collaborative research contract with Tohoku University on 3D tsunami simulations that can precisely calculate inundation on land and in rivers.
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