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China Set to Unveil Record-Shattering Supercomputer

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China surpassing U.S. with 54.9 petaflop supercomputer

Intel-based system has China poised to take the global lead in Top500 supercomputing list this month

By Patrick Thibodeau

June 3, 2013 07:10 AM ET

Computerworld - China has produced a supercomputer capable of 54.9 petaflops, more than twice the speed of any system in the U.S., according to a U.S. researcher who was in China last week and learned the details.

China's latest system was built with Intel chips, but includes indigenously produced Chinese technologies as well. The Chinese government spent about $290 million(bloody cheap!:coffee:) on it.


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China's new supercomputer is capable of 54.9 petaflops. (Image: Prof. Jack Dongarra)


Today, the world's fastest supercomputer is at Oak Ridge National Laboratory in Tennessee. The Cray system was running at nearly 18 petaflops, according to last November's biannual Top 500 list. That list will be updated in mid-June.

With its new supercomputer, China is raising the stakes in supercomputing for the U.S., as well as for Japan and Europe. It is showing a willingness to push for leadership in HPC and the race to develop the next generation of systems, exascale.

Jack Dongarra, a professor of computer science at the University of Tennessee and one of the academic leaders of the Top 500 supercomputing list, posted a detailed description late Sunday of China's latest system ( report PDF ) from his trip to China. His findings are based on a briefing at an HPC conference May 28-29 in Changsha by a Chinese official from the National University of Defense Technology (NUDT).

HPC Wire reported on the new system this weekend.

China's latest large system is the successor to its Tianhe-1A supercomputer, which won the global title as the world's fastest in November 2010. President Obama made note of China's supercomputing accomplishment in his state of the union speech in January, 2011, where he said the U.S. was facing another "Sputnik moment" in wide range of technologies.

China's latest supercomputer, called Tianhe-2 or Milkyway-2, has 32,000 multicore Intel Xeon Ivy Bridge chips, and 48,000 Xeon Phi chips, a co-processor based on Intel's MIC (Many Integrated Core) architecture.

Each Phi processor is capable of more than teraflop of speed, or one trillion floating point operations per second. A petaflop is 1,000 teraflops, or one quadrillion floating-point operations per second. An exascale system is 1,000 petaflops.

Dongarra's report suggests that China may have the leading system for some time. "The next large acquisition of a supercomputer for the U.S. Department of Energy will not be until 2015," he wrote.

China has been developing its own chip technology and has been mixing and matching homegrown tech with imported components. U.S. researchers believe China is heading in the direction of building a supercomputer made entirely of indigenously produced components, including chips.

The approach of combing China-built technology with American products, is evident in Tiahne-2.

"There are number of features of the Tianhe-2 that are Chinese in origin, unique and interesting," said Dongarra, in his report. These include a proprietary interconnects, and the Galaxy FT-15, a 16-core processor. He cited the "apparent reliability and scalability" of the system as well.

The system's power usage, when cooling is considered, is 24 MWs. Power is major issue in achieving exascale. Researchers could assemble, theoretically, an exascale computing system with current technology. But at a billion or so cores, it would need its own power plant to operate.

To reach exascale, HPC researchers say they need to develop processors, memory and network components that substantially reduce power use. New programming models are also being developed. The problems in achieving exascale are such that Europe, which is investing heavily in its own HPC effort, believes there is a potential to leapfrog the U.S. if breakthrough approaches are discovered to some of these problems.

U.S. researchers, as recently as last month, warned Congress that the U.S., while the undisputed leader in HPC today, is at risk of falling behind in HPC development unless it commits hundreds of millions of dollars to exascale research. But the ongoing budget dispute and sequestration is leading to a reduction in R&D spending.

China wants to produce an exascale system before 2020. The U.S., at its present effort, won't produce an exascale system until around 2025, lawmakers were told last month.

China surpassing U.S. with 54.9 petaflop supercomputer - Computerworld
 
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Beijing cluster brawlers warm up for undergrad cluster tussle

Chinese invasion: HUST and 3-time winners Tsinghua head to Leipzing

By Dan Olds, Gabriel Consulting • Get more from this author

Posted in HPC , 3rd June 2013 16:07 GMT

HPC blog China’s biggest export in June, at least measured by FLOP/s, could likely be the two teams they’re sending to the second annual Student Cluster Challenge at the International Supercomputing Conference (ISC).

This is the second major cluster competition of 2013, coming hot on the heels of the recently completed Asia Student Supercomputer Challenge.

These global competitions pit teams of university students against each other in three-day test to see which team can design, tune, and run the fastest cluster possible while staying under the 13 amp (~3,000 watt) power cap.

(If you’re a fan of primers, here’s one about student cluster competitions, and here’s the 2013 competition schedule.)

The two top Chinese teams coming out of the Asia Student Supercomputer Challenge (ASSC) earned the right to compete in Leipzig in mid-June. Both teams are sponsored by Inspur, the giant technology and technical services company based in China. Inspur was also a major sponsor of the ASSC. So let’s take a closer look at these competitors...

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Tsinghua University (Team Tsinghua) hails from Beijing and is considered one of the top three universities in all of China. It has a pretty solid standing when compared to the rest of the world as well: QS World University Rankings rates TH as the 48th best school overall and gives it a rating of 77.51 (on a 100-point scale) on Engineering & Technology.

The school began competing in student cluster competitions in 2012 and, to date, they’ve had three bouts and have put together an amazing track record:

•March 2012 China competition: Won Overall Best award
•June 2012 ISC competition: Won Overall Best award
•April 2013 Asia Student Supercomputer Challenge: Won Overall Best & LINPACK awards

Team Tsinghua has come out of nowhere to become one of the hottest teams in student clustering. They’ve picked up a lot of experience over a short period of time and have set the student cluster world abuzz with their record-shattering 7.579 Tflop/s LINPACK score at ASSC last month. This result more than doubled the previous record of 3.014 Tflop/s posted by China’s NUDT at SC’12 last November.

Can Team Tsinghua stretch their winning streak to an unprecedented four student cluster competitions? Will they once again drink deeply from the golden chalice of cluster competition victory? They’ll be competing against a larger and more experienced international field at ISC’13 next month, which could stand in the way of a four-peat. But, for right now at least, Team Tsinghua has to be regarded as the early favourite to win.

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Huazhong University of Science & Technology (Team HUST) travels to Leipzig from Wuhan, China (located in the central eastern part of the country). We don’t know a lot about this school, but we do know that Huazhong is a national key university in China, which means they’re directly connected to the Ministry of Education. It’s also a large school, with more than 50,000 undergraduate and postgraduate students.

They’re not riding gaudy world ranking stats like some of the other schools in the ISC’13 competition. QS University Rankings pegs the school as the 450th-500th best in the world, and their separate Engineering & Technology score is only 14.65 on a 100-point scale. Ouch. This will be only the second time Team HUST has competed in a cluster competition, and it’s their first international trip (as far as we know).

But it’s important to keep in mind that Team HUST did claw their way to a second-place finish at the ASSC event. They also turned in the top BDSE score (optimising the options pricing routine to run on Intel’s Phi accelerator). In doing this, they beat out eight other teams, including the highly experienced Team Taiwan (NTHU), the past two-time winner of the US-based SC competitions. They also topped Team NUDT, an experienced team of GPU/GPU jockeys from China’s National University of Defense Technology. Both NTHU and NUDT are formidable opponents that were considered early favourites to take major awards at ASSC.

It will be interesting to see how the Chinese teams perform at ISC’13. Last year in Hamburg, they snapped up the Overall Best and LINPACK, achieving a clean sweep over their European and American competitors. This year, they’ll be facing a larger and more experienced field. Will we see another "Red Wave" in Leipzig this June? ®

Beijing cluster brawlers warm up for undergrad cluster tussle ? The Register
 
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Holy crap, power supply is 24MW?! They may have to build a small power station just for this monster.:cheers:

Anyways, it is good news. Top of the line scientific research and engineering design have been growing increasingly reliant on supercomputers.
 
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Holy crap, power supply is 24MW?! They may have to build a small power station just for this monster.:cheers:

Anyways, it is good news. Top of the line scientific research and engineering design have been growing increasingly reliant on supercomputers.

They are indeed designing and planning to build a small dedicated nuclear reactor for use in about 2020 when the first Chinese exascale system is expected to come online。
 
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