China Dominates the World TOP500 Supercomputers

[TaiShang]

China's TaihuLight wins world's fastest supercomputer crown again
(Xinhua) November 15, 2016

China's Sunway TaihuLight has unsurprisingly taken the crown of the world's fastest machine again, according to the latest edition of the semiannual Top500 list of supercomputers released Monday.


The massive supercomputer, built entirely using processors designed and made in China, made its first public appearance in June, when it easily dethroned the former champion, Tianhe-2, also a Chinese system but built based on Intel chips.

TaihuLight is capable of performing 93 million billion calculations per second (petaflop/s). That's almost three times as fast as Tianhe-2, which had claimed No. 1 spot in the Top500 list for the past three years.

That means a Chinese supercomputer has topped the rankings for eight times in a row, indicating the rise of China in the high performance computing (HPC) field.

In the previous list released in June, China overtook the United States in the number of total supercomputers installed. That was first time that the United States has not dominated this category since the list was started 23 years ago.

This time, the number of systems installed in China increased to 171 from 168 on the last list, but the United States also made "a slight recovery" and now has 171 systems, up from 165 in the previous list.

"The 48th edition of the Top500 list saw China and the United States pacing each other for supercomputing supremacy," Top500 editors said in a statement released at an HPC conference in Salt Lake City. "A year ago the United States was the clear leader with 200 systems, while China had 108."

In addition, China and the United States are "neck-and-neck in the performance category" with the latter holding 33.9 percent of the overall installed performance while the former is second with 33.3 percent of the overall installed performance, said the statement.

In the latest rankings, Titan and Sequoia, two systems from the United States, remained No. 3 and No. 4 positions, but the top 10 list did receive "a mild shakeup."

The Cori supercomputer, a new system installed at the U.S. Lawrence Berkeley National Laboratory, slipped into the fifth slot with a performance of 14.0 petaflop/s.

Right behind it at No. 6 is the new Oakforest-PACS supercomputer that is running at Japan's Joint Center for Advanced High Performance Computing with a performance of 13.6 petaflop/s.

The addition of Cori and Oakforest-PACS pushed every system below them a couple of notches down, with the exception of Piz Daint, a supercomputer installed at the Swiss National Supercomputing Center, which maintained its spot at No. 8 as a result of a massive 3.5 petaflop/s upgrade.

When it comes to companies making these systems, the America-based Hewlett-Packard Enterprise has the lead with 112 supercomputers, which is followed by China's Lenovo with 92 systems.

There are three other Chinese companies in the vendor list: Sugon (No. 4 with 47 systems), Inspur (No. 8 with 18 systems) and Huawei (No. 9 with 16 systems).

"Chinese manufactures like Lenovo and Huawei are doing well globally," Jack Dongarra, professor of the University of Tennessee and editor of the list, told Xinhua.

The Top500 list is considered one of the most authoritative rankings of the world's supercomputers. It is compiled on the basis of the machines' performance on the Linpack benchmark by experts from the United States and Germany.

 

[Bussard Ramjet]

Chinese research team wins top award in supercomputing
<blockquote class="twitter-tweet" data-lang="en"><p lang="en" dir="ltr">USTC wins Linpack portion of the Cluster Challenge. 31.5 Tflops. 10 years ago their system would have been 36th in the Top 500. <a href="https://twitter.com/hashtag/sc16?src=hash">#sc16</a> <a href="https://twitter.com/hashtag/scc?src=hash">#scc</a> <a href="https://t.co/XScOjx3tZ4">pic.twitter.com/XScOjx3tZ4</a></p>&mdash; Bob Beck (@bob_beck) <a href="

https://twitter.com/x/status/798685661935075328

">November 16, 2016</a></blockquote>
<script async src="//platform.twitter.com/widgets.js" charset="utf-8"></script>

 

[Bussard Ramjet]

The supercomputing conference is going on right now.

Among the anticipated events are announcements regarding HPC programs of different countries, the Student Cluster Competition, and the Awards.

 

[Bussard Ramjet]

China wins big in Supercomputing Conference 2016!

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China won both the Student Cluster Competition, as well as the ACM Gordon Bell Prize.

The first is the student cluster competition, won this time by USTC China, while the latter is the top award in the world for HPC application.

Kudos!

 

[Sheikh Rauf]

Congratulation China.

 

[Shotgunner51]

 

[terranMarine]

One word: impressive
Now China's aim is the first country capable of producing an exascale computer and i believe we can succeed in that.

 

[Shotgunner51]

China has best supercomputers, the hardwares. How about supercomputing?

Six outstanding research efforts in high performance technical computing have been selected as finalists in supercomputing’s most prestigious competition, the ACM Gordon Bell Prize in High Performance Computing. The prize will be presented to a single winner this week during SC16 in Salt Lake City.

This year’s finalists represent the broad impact that the field of high performance computing has across the many disciplines of science and engineering:

1. “A Highly Effective Global Surface Wave Numerical Simulation with Ultra-High Resolution,” by a research team from the First Institute of Oceanography (China), National Research Center of Parallel Computer Engineering and Technology (China) and Tsinghua University (China) (abstract)
2. “10M-Core Scalable Fully-Implicit Solver for Nonhydrostatic Atmospheric Dynamics,” by a research team from the Chinese Academy of Sciences, Tsinghua University (China), the National Research Center of Parallel Computer Engineering and Technology (China) and Beijing Normal University (China) (abstract)
   
3. “Extreme-Scale Phase Field Simulations of Coarsening Dynamics on the Sunway Taihulight Supercomputer,” by a team of researchers from the Chinese Academy of Sciences, the University of South Carolina, Columbia University (New York), the National Research Center of Parallel Computer Engineering and Technology (China) and the National Supercomputing Center in Wuxi (China) (abstract)
4. “Simulations of Below-Ground Dynamics of Fungi: 1.184 Pflops Attained by Automated Generation and Autotuning of Temporal Blocking Codes,” by a research team from RIKEN (Japan), Chiba University (Japan), Kobe University (Japan) and Fujitsu Ltd. (Japan) (abstract)
5. “Towards Green Aviation with Python at Petascale,” by a research team from Imperial College London (England) (abstract)
6. “Modeling Dilute Solutions Using First-Principles Molecular Dynamics: Computing More than a Million Atoms with Over a Million Cores,” by a research team from Lawrence-Livermore National Laboratory (Calif.) (abstract)

Three out of six finalists are from China, one from each of Japan, US, UK. Congrats all!

 

[Shotgunner51]

as well as the ACM Gordon Bell Prize. ... is the top award in the world for HPC application.
Kudos!

Six outstanding research efforts in high performance technical computing have been selected as finalists in supercomputing’s most prestigious competition, the ACM Gordon Bell Prize in High Performance Computing. This year’s finalists represent the broad impact that the field of high performance computing has across the many disciplines of science and engineering:

1. “A Highly Effective Global Surface Wave Numerical Simulation with Ultra-High Resolution,” by a research team from the First Institute of Oceanography (China), National Research Center of Parallel Computer Engineering and Technology (China) and Tsinghua University (China) (abstract)
2. “10M-Core Scalable Fully-Implicit Solver for Nonhydrostatic Atmospheric Dynamics,” by a research team from the Chinese Academy of Sciences, Tsinghua University (China), the National Research Center of Parallel Computer Engineering and Technology (China) and Beijing Normal University (China) (abstract)
   
3. “Extreme-Scale Phase Field Simulations of Coarsening Dynamics on the Sunway Taihulight Supercomputer,” by a team of researchers from the Chinese Academy of Sciences, the University of South Carolina, Columbia University (New York), the National Research Center of Parallel Computer Engineering and Technology (China) and the National Supercomputing Center in Wuxi (China) (abstract)
4. “Simulations of Below-Ground Dynamics of Fungi: 1.184 Pflops Attained by Automated Generation and Autotuning of Temporal Blocking Codes,” by a research team from RIKEN (Japan), Chiba University (Japan), Kobe University (Japan) and Fujitsu Ltd. (Japan) (abstract)
5. “Towards Green Aviation with Python at Petascale,” by a research team from Imperial College London (England) (abstract)
6. “Modeling Dilute Solutions Using First-Principles Molecular Dynamics: Computing More than a Million Atoms with Over a Million Cores,” by a research team from Lawrence-Livermore National Laboratory (Calif.) (abstract)

Since three out of six finalists are from China (other three from Japan, US, UK), so exactly which Chinese team won the prize?

 

[Dungeness]

Chinese team wins top award in supercomputing

Xinhua, November 18, 2016
Adjust font size:

A 12-member team of Chinese researchers on Thursday won the 2016 ACM Gordon Bell prize, the top award in the field of supercomputing.

This is the first time that Chinese researchers have been awarded the honor.

"It's a historic breakthrough," said Haohuan Fu, deputy director of the National Supercomputing Center in Wuxi and one of the team members.

Fu and his colleagues were honored for developing a method for calculating atmospheric dynamics that could be used to improve global climate models as well as weather predictions.

The award was presented at the 2016 Supercomputing Conference in Salt Lake City, Utah.

The Gordon Bell Prize, awarded each year at the annual supercomputing conference, was established in 1987 by Gordon Bell, a pioneer in high-performance and parallel computing.

It tracks the progress of parallel computing and rewards innovation in applying high performance computing to challenges in science, engineering, and large-scale data analytics. Endit


http://www.china.org.cn/world/Off_the_Wire/2016-11/18/content_39730298.htm

 

[terranMarine]

Good job

 

[Beast]

Does it came as a surprise? Since the top 2 fastest supercomputer is from China. It shall not be surprised we easily won such competition. Not only that China is in fact already a leader in computer technology.

 

[Dungeness]

Team Swangeese! Kids from USTC won SCC16.

http://www.studentclustercompetition.us/

Does it came as a surprise? Since the top 2 fastest supercomputer is from China. It shall not be surprised we easily won such competition. Not only that China is in fact already a leader in computer technology.

Having the fastest HPC and winning in HPC Application Competition are not the same thing, bro!

 

[Beast]

Team Swangeese! Kids from USTC won SCC16.

http://www.studentclustercompetition.us/

Having the fastest HPC and winning in HPC Application Competition are not the same thing, bro!

HPC without application software will not work. China fastest supercomputer is a demonstration of hardware and software capabilities.

 

[GeraltofRivia]

Keep us the good work! feel proud of you!