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Primeur weekly 2015-03-23

Special

University of Kent team to work on protocol independent federated identity management in OpenStack ...

From Cloud federation to general federation management ...

The Cloud

EGI.eu is looking for an Operations Officer ...

VMware announces general availability of VMware vSphere 6, VMware Integrated OpenStack and VMware Virtual SAN 6 ...

VMware Announces General Availability of vCloud Air in Germany ...

HP helps TNT future-proof business through IT transformation ...

EuroFlash

ISC 2015 keynotes focus on latest innovation and future challenges ...

Allinea releases CUDA 7 debugging support and extends performance tools to CUDA ...

Allinea delivers OpenPOWER debugging ...

PRACE completes first phase of Pre-Commercial Procurement ...

Superfast computers a step closer as a silicon chip's quantum capabilities are improved ...

USFlash

SDSC researchers win NVIDIA's 2015 Global Impact Award ...

Researchers rethink how our feathered friends evolved ...

SDSC/UCSD study uncovers mechanisms of cancer-causing mutations ...

Supermicro debuts new NVIDIA Tesla GPU SuperServers optimized for extreme parallel computing ...

HP brings scalable, high-performance storage solutions within reach of more midsized businesses ...

New optical materials break digital connectivity barriers ...

Scientists invent new way to control light, critical for next gen of super fast computing ...

Supercomputers help solve puzzle-like bond for biofuels ...

NVIDIA unveils Digits DevBox supercomputer aimed at researchers ...

Brookhaven presents Big Data pilot projects at Supercomputing Conference ...

Tohoku University and Fujitsu succeed in real-time flood analysis using supercomputer-based high-resolution tsunami modelling ...

Use of reclaimed water fuels decrease at Los Alamos ...

HP helps small businesses gain a competitive edge with new compute platforms ...

Data structures influence speed of quantum search in unexpected ways ...

Tohoku University and Fujitsu succeed in real-time flood analysis using supercomputer-based high-resolution tsunami modelling


10 Mar 2015 Sendai - International Research Institute of Disaster Science (IRIDeS), Tohoku University and Fujitsu Laboratories Ltd. have jointly developed a high-resolution tsunami model, able to run on a supercomputer, and based on Tohoku University's existing TUNAMI-N2 simulation model, which is in widespread use internationally. For this project, IRIDeS prepared the model to perform high-resolution calculations, and Fujitsu Laboratories implemented methods for high-efficiency parallelization.

The Great East Japan Earthquake far exceeded the scale of previously envisioned earthquakes, causing underestimations of tsunami height made three minutes after the start of the earthquake, exposing an urgent need to improve methods of real-time estimation. The disaster also illustrated the need for information beyond wave height, such as the scope of flooding.

Now Tohoku University and Fujitsu Laboratories have developed a tsunami model that quickly predicts the extent of flooding from sea surface deformation, which is the source of the tsunami and is estimated based on observation data on the shape of the tsunami out at sea and on tectonic shifts onshore at the time of the earthquake. For example, flooding in the Great East Japan Earthquake started in Sendai one hour after the earthquake struck. With this technology basic predictions of where flooding would occur in the City of Sendai can be provided in about 10 minutes for the Great East Japan Earthquake case.

By making high-resolution, real-time predictions of general tsunami-flooding conditions, Tohoku University and Fujitsu Laboratories will contribute to more effective disaster-response measures.

This research was published on February 24th in an online preview ofGeophysical Research Letters, a journal of the American Geophysical Union.

In the aftermath of the Great East Japan Earthquake, for the purpose of improving tsunami disaster prevention, work has proceeded on laying out an extensive, fine-grained offshore tsunami observation grid. At the same time, to make the best possible use of that observation data, there has also been a vigorous R&D push to develop analytical techniques for more sophisticated real-time tsunami forecasting.

Tohoku University and Fujitsu Laboratories have moved forward on joint research since 2014 to enable not only predictions for when tsunamis will hit coastlines and for tsunami wave heights, which are released by the Japan Meteorological Agency, but also real-time forecasts of the extent of tsunami-induced flooding, which are important for disaster-response measures. Tsunami flood simulations currently in wide use are an important practical tool for disaster preparedness, producing flood-hazard maps and more. But this simulator is computationally intensive, and takes time to solve nonlinear equations. As a result, it typically has not been used for real-time analysis.

Under the research project "The advancement of the accuracy of tsunami prediction" - principal investigator: Fumihiko Imamura; project number: hp140222, which is a project of the HPCI Strategic Programme for Innovation Research Field 3, "Advanced Prediction Researches for Natural Disaster Prevention and Reduction", advanced by the Ministry of Education, Culture, Sports, Science and Technology (MEXT), Fujitsu Laboratories and Tohoku University have investigated the feasibility of using their parallelized tsunami model for real-time flood analysis, making full use of the computational power of the K computer to perform highly efficient parallel computations.

Using a wave-source model estimated from observation data collected from the tsunami caused by the Great East Japan Earthquake, the team conducted flood simulations to verify the technology. To reproduce the tsunami's flood dynamics in detail, the team used high-resolution topographic data, modelling an approximate 10 km area around the City of Sendai's coastal districts with a resolution of 5 m.

This testing showed that simulations of the general extent of flooding in the City of Sendai could be completed in two minutes. Performing the same computations on a workstation would take several days. Even including the time needed to analyze the tsunami wave source from the observation data, the time to provide basic flood predictions was estimated to be approximately 10 minutes. This would have been sufficiently fast for the tsunami caused by the Great East Japan Earthquake, which took one hour to reach the City of Sendai.

In addition, using this high-resolution analysis, the team was able to reproduce results actually seen from the tsunami caused by the Great East Japan Earthquake. For example, the embankment of the Sendai East Road was able to stop the tsunami, which then passed through passageways underneath it. The predictions are given by the newly developed tsunami model.

Tohoku University and Fujitsu Laboratories will apply this technology to hypothetical cases of a massive earthquake in the Nankai Trough, which is a large region from which earthquakes originate, and test its effectiveness. In doing so, it is hoped that precise and targeted tsunami forecasts will help local governments and businesses around seaports better prepare tsunami-response measures.
Source: Tohoku University

Back to Table of contents

Primeur weekly 2015-03-23

Special

University of Kent team to work on protocol independent federated identity management in OpenStack ...

From Cloud federation to general federation management ...

The Cloud

EGI.eu is looking for an Operations Officer ...

VMware announces general availability of VMware vSphere 6, VMware Integrated OpenStack and VMware Virtual SAN 6 ...

VMware Announces General Availability of vCloud Air in Germany ...

HP helps TNT future-proof business through IT transformation ...

EuroFlash

ISC 2015 keynotes focus on latest innovation and future challenges ...

Allinea releases CUDA 7 debugging support and extends performance tools to CUDA ...

Allinea delivers OpenPOWER debugging ...

PRACE completes first phase of Pre-Commercial Procurement ...

Superfast computers a step closer as a silicon chip's quantum capabilities are improved ...

USFlash

SDSC researchers win NVIDIA's 2015 Global Impact Award ...

Researchers rethink how our feathered friends evolved ...

SDSC/UCSD study uncovers mechanisms of cancer-causing mutations ...

Supermicro debuts new NVIDIA Tesla GPU SuperServers optimized for extreme parallel computing ...

HP brings scalable, high-performance storage solutions within reach of more midsized businesses ...

New optical materials break digital connectivity barriers ...

Scientists invent new way to control light, critical for next gen of super fast computing ...

Supercomputers help solve puzzle-like bond for biofuels ...

NVIDIA unveils Digits DevBox supercomputer aimed at researchers ...

Brookhaven presents Big Data pilot projects at Supercomputing Conference ...

Tohoku University and Fujitsu succeed in real-time flood analysis using supercomputer-based high-resolution tsunami modelling ...

Use of reclaimed water fuels decrease at Los Alamos ...

HP helps small businesses gain a competitive edge with new compute platforms ...

Data structures influence speed of quantum search in unexpected ways ...