Wednesday , October 20 2021

Chinese super-calculation Tianhe No.1 is a success. A new generation of supercomputing is developing – CHINA China


Recently, the official website of the State Council mentioned that People's Daily said the Tianjin National Supercultures Center reported that at 15 the Chinese "first-class" supercomputer "Tianhe No.1" reports have received support from leading national projects. There are more than 1600 items as a weapon to protect China's scientific and technological innovation.


According to online public information, "Tianhe No. 1" is China's first supercomputer, with 2,570 teraflops per second computer speed. The supercomputer "Tianhe No. 1" was developed by the Chinese National Defense Technology Institute in 2008 and opened at the Tianjin Supercomputer National Center. The first phase (TH-1) was successfully developed in September 2009, and the second phase (TH-1A) was updated in August 2010 at the Tianjin National Center.

The storage capacity of the "Tianhe No. 1" supercomputer is the sum of the four volumes of international libraries. Since its inception in 2010, the supercomputer "Tianhe No. 1" has made remarkable achievements in many aspects, such as aerospace, weather forecasting, weather forecasting and the imitation of the marine environment.

November 2010, Tianhe n. 1 set a worldwide record in the fast speed of computer supercomputers in the World Record Association. The Jaguar supercomputer developed the fastest running record in the world, according to the United States Department of Energy, developed by the Oak Ridge National Laboratory. The Jaguar supercomputer measures a speed of 1,750 trillion per second.

"Tianhe No.1" has a wide range of services: high-tech equipment, marine equipment, drones, etc. To support numerical simulation in the field of biomedicine, protecting the development and investigation of new intellectual property rights, such as insulin and great advances; Supporting more than 200 new research teams with nano, energy storage and computational simulation research in superconductivity.

Nowadays, supercomputers have become the guru of innovation in national information technology, and have a great deal of support for national strength. The development of a new supercomputers generation is at the cutting edge of international innovation in information technology and competition. The United States, Japan and the European Union have proposed a new generation of supercomputable development plans.

This summer, the development of the super-computer super-computer super-computer "Tianhe No. 3" in China was developed and extended, and successfully passed the sub-item approval. It uses three independent home automation for high-performance computing and communication chips, and its computing power will be 200 times greater than "Tianhe No.1" and will increase the storage capacity by 100 times. It has achieved a new scientific research in China in the field of high-tech information innovation.

In the future, China wants to deploy three E-class supercomputers. Currently, these three E-class prototypes are deployed in six super-computing central national centers: one Tianhe series is deployed in Changsha, Guangzhou and Tianjin centers; The second is Shenwei series. Wuxi and Jinan expand; The third is the Shuguang series, which has been deployed in Shanghai and Shenzhen. The current trend, in the future, the supercomputers of the three Chinese E-Classes will take on an accelerated multi-port architecture. The only difference is the structure of many colors. There are many heterogeneous threads, the other is a master slave and a multi-core multi-core multi-core, multi-core processors and various accelerators, and a comprehensive independent innovation in each of the key technology areas.

The report says the Tianjin Supercomputing Center will build a high performance computing platform with the integration of supercomputers integration and the integration of large data related to the Tianhe No.3 supercomputer. Long-term high-resolution weather forecasts and large-scale aerospace winds. To calculate and simulate large-scale caves, seismic geological research and energy exploration of oil and gas, brain science and genetic engineering, and the government data of the national economy and people's livelihood, information security, health, genetic health, intelligent city, transport, geography, ocean Data The field of analysis and large processing is very important in the support and platform.

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