元器件交易网讯 4月15日消息，据外媒报道，富士通与Touhoku大学合作开发3D海啸模拟器已经发布。该模拟器通过监测多种自然数据预测海啸，精度极高。

　　这款3D海啸模拟器融合了富士通3D流体模拟技术及前代2D海啸模拟系统。2D海啸模拟系统将数据负荷最小化，3D流体模拟技术则将流体情况精确仿真。

　　富士通与Touhoku大学计划将该技术与其他创新性防灾系统及技术相融合。（元器件交易网毛毛  译）

　　以下为原文：

　　Fujitsu’s collaboration with TouhokuUniversity led to the development of a 3D tsunami simulator for high-precisiontsunami forecasting.

　　fujitsu3dtsunamisimulator Fujitsu 3Dtsunami simulator predicts watery disasters as it unfolds

　　The massive Touhoku earthquake of 2011 wasone of the worst natural catastrophes that happened to Japan as of late. Notonly did it cause major damage inland, but the tsunami that followed after thequake led to what is now infamously known as the Fukushima nuclear disaster.

　　Fujitsu, in wake of this tragic event,proposed a research project with Touhoku University the following year, in2012. This research detailed the implementation of a new preventive measurethat could significantly mitigate damage caused by such natural disasters. Twoyears later, Fujitsu finally announced today the development of ahigh-precision 3D tsunami simulator, which can be used to observe and predictpotentially damaging major surges of water from various natural sources.

　　The 3D tsunami simulator can recreate how atsunami flows inland in very accurate detail, showing the flow of water as itinteracts with the general topography of the area it is going to affect. It canalso simulate waves as it breaks and forms, and as it flows through obstacleslike urban buildings and local coastal geographic features.

　　The current iteration of the 3D tsunamisimulator is actually a combination of Fujitsu’s 3D fluid simulation technologyand the previous 2D tsunami-propagation simulation system, which was developedby Touhoku University’s International Research Institute of Disaster Science.With the 2D tsunami-propagation simulation system, data processing loads areminimized due to its simplicity, while the 3D fluid technology allows accuratesimulation of fluid flow due to the system treating the fluid as a collectionof tiny particles.

　　Fujitsu and Touhoku University plans toincorporate the technology to various other innovative disaster preventionsystems and technologies that are currently being developed and improved. Withit, they hope that more advanced solutions can be made and taken, so thatpotential damage caused by future earthquakes and tsunamis can be significantlyreduced.