Next Frontier of Supercomputer: China's Exascale in the Making

[cirr]

China moves to beat U.S. in exascale computing
It's now on a path to delivering an entirely indigenous supercomputer

30-petaflop range by June 2013

By Patrick Thibodeau
November 20, 2012

Computerworld - U.S. efforts to develop the next-generation high performance computing (HPC) platform are lagging because they don't have government funding. In China, it's a much different story.

China has impressed analysts with its rocket-speed commitment to HPC. It had 72 systems in this month's Top 500 supercomputer list, making it the No. 2 HPC user in the world. Five years ago, it had just 10 systems in the Top 500 list.

Along the way to achieving its HPC goals, China built what was for a time the world's most powerful supercomputer, the Tianhe-1A.

The U.S. remains far and away the leader in the field for now, with 250 HPC systems on the Top 500 list. U.S.-based tech firms build most of the world's systems.

But U.S. dominance today is no guarantee of future success. Last week at SC12, the annual supercomputing conference, a panel of HPC researchers from China was asked about that nation's exascale plans.

Depei Qian, a professor at Beihang University and director of the Sino-German Joint Software Institute, said that China has historically been five years or more behind the U.S. Although China has tried to close the gap in recent years, Qian said: "Still, I guess three to five years will be the reality" of the gap between the two nations' efforts.

Earl Joseph, an HPC analyst at IDC, had a different take. "The Chinese are being very polite -- their goal is to build it (an exascale system) first," he said.

Part of China's effort includes building an indigenous tech industry. "What I think is interesting is the dedication (in China) to creating a home-grown economy for computing," said Pete Beckman, director of the Exascale Technology and Computing Institute at Argonne National Laboratory.

Beckman points to the way China is building large systems. Steady as she goes; Chinese are by nature conservative; prudent and cautious;

For its Tianhe-1A system, China turned to U.S. chips -- Intel's Xeon processors -- but used a China-developed interconnect. With its Sunway BlueLight supercomputer, China used its own chip, the Shen Wei SW 1600 microprocessor, but with InfiniBand interconnects.

"You can see what they're doing," said Beckman, explaining that China's developers reduce risk by mixing and matching standard technologies with homegrown approaches.

"Now, you can see what's going to happen," said Beckman. "You take your homegrown CPU, the homegrown network, and you put them together and you have a machine that from soup to nuts is a technical achievement for China and is really competitive."

The quest to build an exascale system that's 1,000 times more powerful than the petaflop systems being deployed today may be the biggest challenge yet in HPC. It requires new programming models and methods to manage data and memory, along with improved system resiliency.

HPC researchers are cooperating internationally, to various degrees, on developing exascale system software.

William Harrod, research division director in the advanced scientific computing in the Department of Energy's Office of Science, told attendees at the SC12 conference that this international collaboration is needed. "I personally believe there is no way to achieve these goals [of building an exascale system] by any one government, one country - it far exceeds what people are going to invest and also exceeds the technical talent, so collaboration -- that's easy," said Harrod.

"The competition is not on the computer systems," said Harrod. "The competition is on the science that you perform on the systems and what you do with that."

The U.S. has not yet funded its Exascale Computing Initiative nor has it put a price tag on it, although it's expected to cost billions of dollars. Congress is expected to get a budget request for exascale system development in the 2014 fiscal year budget, which begins next October.

Addison Snell, CEO of Intersect360 Research, said the development of petaflop systems points to what may happen with regard to exascale.

The first petaflop system, IBM's Roadrunner at Los Alamos National Lab, was a custom, hybrid design. It was soon surpassed by China's Tianhe-1A, which relied heavily on accelerators to achieve its high Linpack benchmark score, said Snell.

Although some could argue that Cray's Jaguar at Oak Ridge National Lab was more efficient and more productive at the time, "the public perception was that the U.S. had lost its lead in supercomputing. This was exacerbated when Japan's K Computer became the first to break the 10 petaflop barrier," he said.

The newest top-dog system, the 20-petaflop Titan at Oak Ridge, "brings the U.S. back to the top, as the first U.S. system in that top echelon that relies heavily on accelerators to hit its number," said Snell.

"I believe the Chinese can and may build an exaflop computer by the end of the decade," said Snell. "The U.S. may intend to wait for a more sophisticated design, but it will have to deal in the meantime with the public perception that China will have passed us by."

U.S. researchers and vendors are beginning to talk more about "extreme computing" versus exascale computing. Extreme computing is typically put at between 500 petaflops to one exaflop. The idea is that the outright power of the machine isn't as important as the science that can run on it -- and it's the latter capability that will be the true accomplishment.

Meanwhile, there was talk at the conference that China will announce a large system in June, just in time for the next update of the Top 500 list. That system, based on what Joseph has heard, could be something in the 30-petaflop range.

China moves to beat U.S. in exascale computing - Computerworld

 

[Economic superpower]

TIANJIN - China is planning a supercomputer 1,000 times more powerful than its groundbreaking Tianhe-1A as it faces rising demand for next-generation computing.

Meng Xiangfei, head of the applications department of the National Supercomputer Center, said on Friday that the center will release a prototype in 2017 or 2018 of an "exascale" computer -- one capable of at least a billion billion calculations per second

Exascale computing is considered the next frontier in the development of supercomputers.

Tianhe-1A was recognized as the world's fastest computing systeim in 2010. Though it has since been superseded by Tianhe-2, Tianhe-1A is being more widely used. Computer scientists are finding it challenging to run contemporary applications at their optimum on faster supercomputers.

With its uses including oil exploration data management, animation and video effects, biomedical data processing and high-end equipment manufacturing, Tianhe-1A's capacity is being stretched, said Meng.

It is carrying out more than 1,400 computing tasks and serving about 1,000 users per day.

The exascale computer will be wholly independently developed by the National Supercomputer Center, according to Meng.

About a seventh of Tianhe-1A's CPU chips are Chinese.

 

[cirr]

The Tianjin Centre aims to roll out a prototype of this 1000P monster in 2017？

Great！

 

[XiaoYaoZi]

The Tianjin Centre aims to roll out a prototype of this 1000P monster in 2017？

Great！

It mean we will get at least four supercomputers over 100P before 2018.

 

[cirr]

It mean we will get at least four supercomputers over 100P.

3 100P HPCs in the works for Wuxi、Shenzhen and Chongqing Centres

1 1000P HPC for the Tianjin Centre

And I thought the Shanghai Centre would be the first to get its hands on the 1000P machine。

Well，it can always go for the first quantum computer。

The likes of Changsha、Guangzhou and Jinan NSC must get a move on。

Ditto NSC-CAS

 

[cirr]

100 PFLOPS: CHINA’S SUPERCOMPUTER CIRCUMVENTS U.S. SALES BAN

APRIL 13, 2016 3

China's Tianhe-2 supercomputer is world's fastest supercomputer, at 33 PFLOPS demonstrated and 55 PFLOPS theoretical performance.

A year ago, we revealed that the U.S. State Department blocked the further sales of Intel Xeon and Xeon Phi processors to Chinese institutions, most notably the Tianhe-2 supercomputer. The U.S. Administration also blocked the move in which a China-based investment fund would invest in AMD i.e. one of original reasons for Radeon Technologies Group – which is even without the said investment, performing above and beyond its financial capabilities.

The reason to move against Tianhe-2 is complicated yet simple – ever since its debut in June 2013, the Tianhe-2 supercomputer from NUDT (National University for Defense Technologies) sits on top of the World’s 500 fastest computers list. From the looks of it, Tianhe-2 (the name translates to ‘Milky Way’) looks to keep on sitting on top even after we seethe launch of U.S. supercomputers Summit and Sierra (IBM + Nvidia), as well as Aurora and Theta (Intel).

With its 32,000 Intel Xeon E5-2692 v2 processors, and 48,000 Intel Xeon Phi 31S1P co-processors, Tianhe-2 delivers a peak performance of fantastic 54.9 PFLOPS, and a sustained performance of 33.86 PFLOPS. What is little known is that Tianhe-2 is not a fully built supercomputer. In fact, Tianhe operated at a 50% capacity, as the original target for the system was 100 PFLOPS peak and 80 PFLOPS sustained.

According to our sources, China did not react in a way the current administration expected. Rather than pressuring with (empty) threats that affect the commerce between the two of world’s largest economies, China invested all the funds intended for Intel and other foreign vendors – into the development of in-house Alpha and ARM superprocessors, which have the potential to beat the traditional x86 architecture. In terms of funds, NUDT planned to buy 32,000 more Xeon processors (this time, based on Haswell-E) and 48,000 more Xeon Phi co-processors. We’ve been hearing that over $500 million was invested in bringing the Chinese silicon from a prototype phase to production-grade level.

The New Tianhe-2: Meet The 100 PFLOPS Supercomputer

At the 2016 Supercomputing Frontiers conference in Singapore, we learned the first details of the fully developed Tianhe-2 supercomputer, scheduled to debut in June 2016 during the 2016 International Supercomputing Conference in Frankfurt, Germany. This system is expected to deliver over 100 PFLOPS peak performance, and keep the crown of the world’s fastest (super)computer.

The new Tianhe-2 represents a hybrid design, featuring two new additions, as the old Xeon Phi cards are being phased out. Phytium Technologies recently delivered their “Mars” processors in the form of PCI Express cards that replaced the Xeon Phi cards, and motherboards to upgrade the system. Given that there are 48,000 add-in boards installed, the new 64-core design enables the system to reach its original performance targets. With the three million new ARM cores inside the Tianhe-2, its estimated Rpeak performance in the Linpack benchmark should exceed 100 PFLOPS.

Should Tianhe-2 reach its full deployment of 32,000 Xeons, 32,000 ShenWei processor, and 96,000 Phytium accelerator cards, we might see an upgrade in the range of 200-300 PFLOPS – if the building can withstand the thermal and power challenges associated with it.

Meet Phytium Mars, A 64-Core ARM Superprocessor

Met the world’s first 64-core, 64-bit Xiaomi processor

In August 2015, a little known company Phytium Technologies planned to demonstrated “Mars” processors at the HotChips conference in Cupertino, CA. However, its Lead scientist was denied a visa to enter the U.S. and we could not see the physical boards which featured this extremely powerful processor. The slide above shows the base architecture of the initial engineering sample, with the final delivered boards featured significantly higher performance specifications.

While we were not privy to see the final silicon, we known that the performance went up by almost three fold, and that the final production board delivers 1.5 TFLOPS of compute power, most probably in a dual chip arrangement (akin to Tesla K80 and FirePro S9300 x2).

There are several implementations of this processor in Tianhe-2: add-in card that replaces the Xeon Phi, and motherboards featuring upgradable memory, all using very affordable DDR3-1600 memory. Phytium Technology delivered motherboards with multiple processors and up to 256 GB per Mars processor. Typical implementation measns the company achieves a triple 64 – 64-bit ARM core inside a 64-core processor attaches to 64 GB memory using 8-channel memory interface, not the 16-channel as mentioned in slides – that is for onboard (G)DDR memory.

Bottom line is, the sales restriction enabled a small startup to deliver a product which achieves higher performance than the products it was supposed to replace. All in all, a win for NUDT, and a small company that ‘no one ever heard off’. We will see how the market will develop, and is there a space for Phytium Technology on the supercomputing market. Tianhe-2 might be just the beginning.

Also, this is not the only development coming from mainland China. Jiāngnán Computing Lab successfully developed a new multi-core Alpha processor. Considered a sixth generation design, ShenWei Alpha processors achieve more than 1 TFLOPS of compute performance. However, we were not able to confirm what volumes are involved with the new batch of ShenWei processors. What makes them mysterious is the fact that Wikipedia only lists three generations of their Alpha processors, while the scientists are talking about fifth, sixth and seventh generations.

http://vrworld.com/2016/04/13/china-circumvents-us-sales-ban-tianhe-100-pflops/

 

[cirr]

May 11, 2016

China will unveil a 100 petaflop supercomputer next month after investing $500 million to develop domestic chips after US ban on Intel Xeon exports to China

In 2015, the U.S. State Department blocked the further sales of Intel Xeon and Xeon Phi processors to Chinese institutions, most notably the Tianhe-2 supercomputer. The U.S. Administration also blocked the move in which a China-based investment fund would invest in AMD.

Tianhe 2 has been the world's fastest superconmputer since early 2013. Tianhe-2 has 32,000 Intel Xeon E5-2692 v2 processors, and 48,000 Intel Xeon Phi 31S1P co-processors. Tianhe-2 delivers a peak performance of 54.9 PFLOPS [petaFLOPS], and a sustained performance of 33.86 PFLOPS. What is little known is that Tianhe-2 is not a fully built supercomputer. In fact, Tianhe operated at a 50% capacity, as the original target for the system was 100 PFLOPS peak and 80 PFLOPS sustained.

According to VRWorld sources, China did not react in a way the current administration expected. China invested all the funds intended for Intel and other foreign vendors – into the development of in-house Alpha and ARM superprocessors, which have the potential to beat the traditional x86 architecture. In terms of funds, NUDT planned to buy 32,000 more Xeon processors (this time, based on Haswell-E) and 48,000 more Xeon Phi co-processors. Over $500 million was invested in bringing the Chinese silicon from a prototype phase to production-grade level.

At the 2016 Supercomputing Frontiers conference in Singapore, VRWorld learned the first details of the fully developed Tianhe-2 supercomputer, scheduled to debut in June 2016 during the 2016 International Supercomputing Conference in Frankfurt, Germany. This system is expected to deliver over 100 PFLOPS peak performance, and keep the crown of the world’s fastest (super)computer.

A new 64-core design will enable the system to reach its original performance targets. With the three million new ARM cores inside the Tianhe-2, its estimated Rpeak performance in the Linpack benchmark should exceed 100 PFLOPS.

When Tianhe-2 reach its full deployment of 32,000 Xeons, 32,000 ShenWei processor, and 96,000 Phytium accelerator cards, it could reach a range of 200-300 PFLOPS – if the building can withstand the thermal and power challenges associated with it.



There are several slides of Phytium Technology chips online.

Phytium Technology delivered motherboards with multiple processors and up to 256 GB per Mars processor.

Jiāngnán Computing Lab successfully developed a new multi-core Alpha processor. Considered a sixth generation design, ShenWei Alpha processors achieve more than 1 TFLOPS of compute performance.

http://nextbigfuture.com/2016/05/china-will-unveil-100-petaflop.html

 

[Zarvan]

100 PFLOPS: CHINA’S SUPERCOMPUTER CIRCUMVENTS U.S. SALES BAN

APRIL 13, 2016 3

China's Tianhe-2 supercomputer is world's fastest supercomputer, at 33 PFLOPS demonstrated and 55 PFLOPS theoretical performance.

A year ago, we revealed that the U.S. State Department blocked the further sales of Intel Xeon and Xeon Phi processors to Chinese institutions, most notably the Tianhe-2 supercomputer. The U.S. Administration also blocked the move in which a China-based investment fund would invest in AMD i.e. one of original reasons for Radeon Technologies Group – which is even without the said investment, performing above and beyond its financial capabilities.

The reason to move against Tianhe-2 is complicated yet simple – ever since its debut in June 2013, the Tianhe-2 supercomputer from NUDT (National University for Defense Technologies) sits on top of the World’s 500 fastest computers list. From the looks of it, Tianhe-2 (the name translates to ‘Milky Way’) looks to keep on sitting on top even after we seethe launch of U.S. supercomputers Summit and Sierra (IBM + Nvidia), as well as Aurora and Theta (Intel).

With its 32,000 Intel Xeon E5-2692 v2 processors, and 48,000 Intel Xeon Phi 31S1P co-processors, Tianhe-2 delivers a peak performance of fantastic 54.9 PFLOPS, and a sustained performance of 33.86 PFLOPS. What is little known is that Tianhe-2 is not a fully built supercomputer. In fact, Tianhe operated at a 50% capacity, as the original target for the system was 100 PFLOPS peak and 80 PFLOPS sustained.

According to our sources, China did not react in a way the current administration expected. Rather than pressuring with (empty) threats that affect the commerce between the two of world’s largest economies, China invested all the funds intended for Intel and other foreign vendors – into the development of in-house Alpha and ARM superprocessors, which have the potential to beat the traditional x86 architecture. In terms of funds, NUDT planned to buy 32,000 more Xeon processors (this time, based on Haswell-E) and 48,000 more Xeon Phi co-processors. We’ve been hearing that over $500 million was invested in bringing the Chinese silicon from a prototype phase to production-grade level.

The New Tianhe-2: Meet The 100 PFLOPS Supercomputer

At the 2016 Supercomputing Frontiers conference in Singapore, we learned the first details of the fully developed Tianhe-2 supercomputer, scheduled to debut in June 2016 during the 2016 International Supercomputing Conference in Frankfurt, Germany. This system is expected to deliver over 100 PFLOPS peak performance, and keep the crown of the world’s fastest (super)computer.

The new Tianhe-2 represents a hybrid design, featuring two new additions, as the old Xeon Phi cards are being phased out. Phytium Technologies recently delivered their “Mars” processors in the form of PCI Express cards that replaced the Xeon Phi cards, and motherboards to upgrade the system. Given that there are 48,000 add-in boards installed, the new 64-core design enables the system to reach its original performance targets. With the three million new ARM cores inside the Tianhe-2, its estimated Rpeak performance in the Linpack benchmark should exceed 100 PFLOPS.

Should Tianhe-2 reach its full deployment of 32,000 Xeons, 32,000 ShenWei processor, and 96,000 Phytium accelerator cards, we might see an upgrade in the range of 200-300 PFLOPS – if the building can withstand the thermal and power challenges associated with it.

Meet Phytium Mars, A 64-Core ARM Superprocessor

Met the world’s first 64-core, 64-bit Xiaomi processor

In August 2015, a little known company Phytium Technologies planned to demonstrated “Mars” processors at the HotChips conference in Cupertino, CA. However, its Lead scientist was denied a visa to enter the U.S. and we could not see the physical boards which featured this extremely powerful processor. The slide above shows the base architecture of the initial engineering sample, with the final delivered boards featured significantly higher performance specifications.

While we were not privy to see the final silicon, we known that the performance went up by almost three fold, and that the final production board delivers 1.5 TFLOPS of compute power, most probably in a dual chip arrangement (akin to Tesla K80 and FirePro S9300 x2).

There are several implementations of this processor in Tianhe-2: add-in card that replaces the Xeon Phi, and motherboards featuring upgradable memory, all using very affordable DDR3-1600 memory. Phytium Technology delivered motherboards with multiple processors and up to 256 GB per Mars processor. Typical implementation measns the company achieves a triple 64 – 64-bit ARM core inside a 64-core processor attaches to 64 GB memory using 8-channel memory interface, not the 16-channel as mentioned in slides – that is for onboard (G)DDR memory.

Bottom line is, the sales restriction enabled a small startup to deliver a product which achieves higher performance than the products it was supposed to replace. All in all, a win for NUDT, and a small company that ‘no one ever heard off’. We will see how the market will develop, and is there a space for Phytium Technology on the supercomputing market. Tianhe-2 might be just the beginning.

Also, this is not the only development coming from mainland China. Jiāngnán Computing Lab successfully developed a new multi-core Alpha processor. Considered a sixth generation design, ShenWei Alpha processors achieve more than 1 TFLOPS of compute performance. However, we were not able to confirm what volumes are involved with the new batch of ShenWei processors. What makes them mysterious is the fact that Wikipedia only lists three generations of their Alpha processors, while the scientists are talking about fifth, sixth and seventh generations.

http://vrworld.com/2016/04/13/china-circumvents-us-sales-ban-tianhe-100-pflops/

I know supercomputers are seriously expensive but Pakistan should buy them. Starting from one we also need to develop big research centers for all fields of sciences.

 

[C130]

calling bull crap on this. current hardware is too inefficient to scale up to 100+Pflop/s. Tianhe-2 consumes 24 MW of power right now, and now you are talking about tripling the performance to 100 Pflops/s with the same hardware

you are looking at a power consumption well over 50 megawatts

China is going to have to wait for Volta and Knights Hill since these accelerators will have 3 to 4 times the deficiency compared what Tianhe-2 and everyone else is using right now

 

[Beidou2020]

calling bull crap on this. current hardware is too inefficient to scale up to 100+Pflop/s. Tianhe-2 consumes 24 MW of power right, and now you are talking about tripping the performance to 100 Pflops/s with the same hardware

you are looking at a power consumption well over 50 megawatts

China is going to have to wait for Volta and Knights Hill since these accelerators will have 3 to 4 times the deficiency compared what Tianhe-2 and everyone else is using right now

We will find out next month when the TOP500 list comes out

 

[cirr]

Chinese Tech Giant Readies for Robot Overlords and Cloud Zombies

12.05.2016(updated 03:38 12.05.2016)


Huawei representatives suggest uploading your grandparents to the cloud while plotting the defense of humanity against swarms of killer robots.

Representatives of leading Chinese tech company Huawei claim they are studying science fiction narratives to envision future trends in which evil robots kill humans, dead relatives linger on computers, and people live forever.

This is according to Kevin Ho, president of the company’s handset product line, speaking at the CES Asia conference in Shanghai on Wednesday.

"Hunger, poverty, disease or even death may not be a problem by 2035, or 25 years from now," he said, "In the future you may be able to purchase computing capacity to serve as a surrogate, to pass the baton from the physical world to the digital world."

In statements that range from wild-eyed to wall-eyed, Ho advocated for a world in which children could use phone apps to speak with dead grandparents whose personalities would be uploaded into the cloud. Huawei sees this form of futuristic, data intensive business as a key opportunity.

Ho mentioned a scene in "The Matrix" where a character downloaded a program directly into his brain to enable him to fly a helicopter. He suggested that mainlining knowledge straight to our brains is only hampered by data capacity. "That kind of data download volume exceeds current levels and, in the future, storage will need to exceed 15,000 Zettabytes, so this is a huge increase," he asserted.

"A lot of science fiction has prompted me to have this type of thinking – in science fiction we’ve seen some terrible worlds where technology destroys human society," said Ho before postulating on how we can advance technology more rapidly toward this dystopian demise of human civilization.

"There’s a very interesting film where Mr. Wong, an AI persona, has the task of downloading books, he also has a task of printing books and later, he kills human beings, so we need better safety technology," suggested Ho.

Nonetheless, the businessman joins a growing chorus of people around the world who perceive a growing danger as we move toward increasingly sophisticated and autonomous technology, and the need for safety measures that cannot be overridden by a sentient machine.

calling bull crap on this. current hardware is too inefficient to scale up to 100+Pflop/s. Tianhe-2 consumes 24 MW of power right now, and now you are talking about tripling the performance to 100 Pflops/s with the same hardware

you are looking at a power consumption well over 50 megawatts

China is going to have to wait for Volta and Knights Hill since these accelerators will have 3 to 4 times the deficiency compared what Tianhe-2 and everyone else is using right now

For your information，China has set in motion of building an exascale machine that consumes 35MW of power by 2020，with the goal of reducing power consumption to 20MW eventually：

http://www.hpcwire.com/2016/05/02/china-focuses-exascale-goals/

 

[C130]

We will find out next month when the TOP500 list comes out

I look forward to it.


interesting these "Mars" accelerators can do 512 Gflop/s at 120 watts compared to Knights Landing 3+ Tflop/s


oh how interesting it would have been to see China swap out it's old Knights Corner 1 Tflop/s for Knights Landing 3+ Tflop/s though



the Mars accelators alone will consume 11 GW of power not including cooling for 50 Pflop/s which is peak theoretical probably will be more like 30 to 35 Pflop/s in Linmark

so that's 13/14 GW for 35 Pflop/s not bad

that alone would top the current Tianhe-2 and consume 3 MW of power less.


but how how many Pflop/s will the Xenon and Shinwei add to that??? would have to be at least 80 Pflop/s between the two + the 50 Pflop/s from Mars that's 130 Pflops theoretical peak and 100 Pflops Linmark, and I would bet the power consumption would be at minimum 40 MW

compare that to what we are cooking up in 2017!! 150 Pflops to 300 Pflops for less than 20 MW


Tianhe-2 will already be outdated and a power hog. to boot

you'll hold onto your crown til winter of 2017 though

 

[xunzi]

I look forward to it.


interesting these "Mars" accelerators can do 512 Gflop/s at 120 watts compared to Knights Landing 3+ Tflop/s


oh how interesting it would have been to see China swap out it's old Knights Corner 1 Tflop/s for Knights Landing 3+ Tflop/s though



the Mars accelators alone will consume 11 GW of power not including cooling for 50 Pflop/s which is peak theoretical probably will be more like 30 to 35 Pflop/s in Linmark

so that's 13/14 GW for 35 Pflop/s not bad

that alone would top the current Tianhe-2 and consume 3 MW of power less.


but how how many Pflop/s will the Xenon and Shinwei add to that??? would have to be at least 80 Pflop/s between the two + the 50 Pflop/s from Mars that's 130 Pflops theoretical peak and 100 Pflops Linmark, and I would bet the power consumption would be at minimum 40 MW

compare that to what we are cooking up in 2017!! 150 Pflops to 300 Pflops for less than 20 MW


Tianhe-2 will already be outdated and a power hog. to boot

you'll hold onto your crown til winter of 2017 though

You talk too much for someone who knows very little. Listen, if you don't believe 100flop is possible for us, put down your money RIGHT NOW, and we'll see next month who mouth is bigger. LOL

 

[C130]

You talk too much for someone who knows very little. Listen, if you don't believe 100flop is possible for us, put down your money RIGHT NOW, and we'll see next month who mouth is bigger. LOL

alright buddy I bet Tianhe-2/3 or whatever won't break 100 Pflop/s in Linmark.

 

[xunzi]

alright buddy I bet Tianhe-2/3 or whatever won't break 100 Pflop/s in Linmark.

How about this? If we did show to break 100flop/s next month, you will use my avatar for a week and if I lose, I will use your avatar for a week. How about that, myf riend?