News on China's scientific and technological development.

LOL I meant to create such a graph in the end of November of last year, but didn't:
9fc9478ff2e19a67725d68ce4aee8172-2.jpg

(it's based on data from
#2960 Jura, Nov 28, 2016
and preceding posts then; I of course didn't recheck now)

it's posted for fun, I'm not going to respond to any comments

the next chance for an update: after
November 13-16, 2017
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now I read
Big data industry booming in Guizhou
Xinhua| 2017-09-25 18:57:05
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In the 12,000-hectare Grass Sea natural reserve tucked away in southwest China's Guizhou Province, the entire area has been "digitalized" as a part of the "Grass Sea cloud."

The reserve is home to one of China's famous plateau lakes and more than 1,900 species, including the national protected black-necked crane.

With the Grass Sea big data monitoring system, the hydrological, environmental, meteorological and biological information of the reserve have been uploaded to a big data cloud under real-time surveillance.

Chen Bo, head of Weining county where the lake is located and a newly-appointed "cloud chief," said the cloud was key to the ecological protection of the reserve.

Guizhou is one of the least developed regions in China. Yet it has become a pioneer in China's big data development due to its beneficial climate, power supply and network infrastructure. Big data is being widely applied in government management, business and daily life.

The provincial government has set up a leading group for big data, with the provincial governor as leader. Leaders at various local levels are the "cloud chiefs" responsible for big data development within their regions.

"The big data industry is a perfect opportunity for Guizhou to develop its economy without introducing polluting industries, while helping its poor population shake off poverty," said Jing Yaping, deputy director of the provincial big data development authority.

The
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tech giant Apple Inc announced the opening of its first Chinese data center in the province in early July. With an investment of 1 billion U.S. dollars, the data center plans to offer iCloud services on the Chinese mainland.

Before this, China's three largest telecom operators, China Mobile, China Unicom and China Telecom, had all built data centers in Guizhou. Construction of a data storage center for Huawei has also began. Internet giants such as Alibaba and Tencent have also moved to establish cloud com
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g bases and big data centers.

Jing said Guizhou was also leading the country in opening up government data. Opening up tax data has accelerated the credit investigations of local banks and their lending efficiency to small companies. Opening up civil aviation data has fostered successful mobile apps that offer accurate flight information and related services to passengers.

Thanks to the opening up of road and logistics data, Truck Appliance, the only unicorn company in the province, is able to create an information sharing platform for China's 3.7 million truck drivers and 630,000 cargo owners. It had attracted total financing of 370 million U.S. dollars as of May.

Guiyang Big Data Exchange, the first of its kind in China, started operation in April 2015. A total of 2,000 members exchange and trade data-related assets and services with the transaction amount exceeding 45 million U.S. dollars so far.

A total of 28 big data scientific research institutions have also been set up in the province, as well as 23 incubators and investment organizations.

"Big data has also become a magnet for talent, enabling more young people to settle here," Jing said.
 

taxiya

Brigadier
Registered Member
via gxrx Tianhe just double its computing power after upgrade
with domestic processor thanks to Obama embargo
"
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"

One of China’s supercomputers, Tianhe-2, just received a major upgrade, nearly doubling its power. An announcement from the head of Matsuoka Lab, Satoshi Matsuoka, was made during the International HPC Forum (IHPCF) via a series of tweets. The upgraded computer now performs at a staggering 94.97 petaflops, or 949.7 trillion calculations per second, compared to its previous peak performance of 54.9 petaflops.
The upgrade came from replacing coprocessor chips installed in 2013 and replacing them with domestic chips. The 2013 installation used chips developed by Intel, called Knights Corner Xeon Phi coprocessors, and the original plan was to upgrade the system with upgraded Intel chips. However, the United States issued an embargo blocking the export of these chips to specific supercomputing sites, including the home of the Tianhe-2. In response, China was forced to begin building their own chips. They succeeded in matching the power of the Intel chips with the Matrix-2000 GPDSP accelerators.
Not only the peak computing power, the other shining point is the almost doubling performance/power consumption ratio, or halving of power consumption.
I find this presentation from 2015.
I remember someone here brought in the subject of "being greenest" into the debate once failed to compete raw power. Must have a new argument now. :D
tianhe-evolution-675x433.jpg
 

taxiya

Brigadier
Registered Member
via gxrx Tianhe just double its computing power after upgrade
with domestic processor thanks to Obama embargo
"
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"

One of China’s supercomputers, Tianhe-2, just received a major upgrade, nearly doubling its power. An announcement from the head of Matsuoka Lab, Satoshi Matsuoka, was made during the International HPC Forum (IHPCF) via a series of tweets. The upgraded computer now performs at a staggering 94.97 petaflops, or 949.7 trillion calculations per second, compared to its previous peak performance of 54.9 petaflops.
The upgrade came from replacing coprocessor chips installed in 2013 and replacing them with domestic chips. The 2013 installation used chips developed by Intel, called Knights Corner Xeon Phi coprocessors, and the original plan was to upgrade the system with upgraded Intel chips. However, the United States issued an embargo blocking the export of these chips to specific supercomputing sites, including the home of the Tianhe-2. In response, China was forced to begin building their own chips. They succeeded in matching the power of the Intel chips with the Matrix-2000 GPDSP accelerators.
Basically Obama's embargo shot Intel in the face when aimed at China behind, well done Obama.:rolleyes:
 

Figaro

Senior Member
Registered Member
China set to make breakthrough in deep-ocean mining of rare, hotly-demanded metals

2017-09-27 08:20

Global Times Editor: Li Yan

Before mankind's first commercial deep-sea mining endeavor begins in 2019, China's Xiang Yang Hong 06 survey vessel is currently examining the seabed of the East Pacific for precious metals in a three-month-long voyage. A leading expert in China's seabed mining quest says of the voyage that the country is sailing toward a program that will see the extraction of 30 tons of minerals per hour from 1,700 meters beneath the sea by 2020, minerals that are much-needed in the country.

In August, the Xiang Yang Hong 06 vessel left Qingdao in East China's Shandong Province for the Clarion-Clipperton Fracture Zone in the East Pacific, south of the Hawaiian Islands, to search for polymetallic nodules.

Aboard the survey vessel are experts from China Minmetals Corp (CMC), in the company's first voyage to search for mining opportunities for deep-sea rare metals.

CMC is one of the only 27 contractors for deep-sea mining within the Pacific Ocean under the International Seabed Authority (ISA), an intergovernmental body, headquartered in Kingston, Jamaica, that governs all mineral-related activities on international seabed areas that are beyond the limits of national jurisdictions.

Calling from the sea

"It is not a matter of whether China needs to conduct voyages in deep-sea mining, it is a matter of should we begin such voyages now, or five years later, or 10 years later," Li Maolin, deputy general manager at the Changsha Research Institute of Mining and Metallurgy Co in Central China's Hunan Province, told the Global Times on Friday.

Li's company, a subsidiary of CMC, oversees the survey activity aboard Xiang Yang Hong 06.

Seabed mineral resources mainly refer to three types of deposits - polymetallic nodules, cobalt-rich crusts and polymetallic sulfide deposit. Some of these metals are vital ingredients for emerging industries such as new-energy vehicles.

The deep seabed minerals are huge in quantity and boast excessive concentration compared with their land equivalents, Li said.

In the Clarion-Clipperton area, where CMC is surveying, it is estimated that there lies a reserve of 21 million tons of copper, 27 million tons of nickel, 4.6 million tons of cobalt and 528 million tons of manganese, according to data provided by Li's institute.

To put that figure into perspective, in 2016, China's whole-year manganese output was less than 3 million tons in metal volume, said Li, noting the vast quantity of deep-sea reserves.

"China is a big resource consumer. But on a per capita metric, China's mineral resource level only ranks 53rd in the world. At the current estimate, China's copper, nickel, zinc and manganese reserves could run dry in about 20 years, in addition to a heavy reliance on foreign imports of copper and nickel," Li said, adding that land mines for cobalt, which is used to improve power batteries, face exhaustion in just 10 years.

"Most of the proven deep seabed metal resources are sorely needed by China, as the country, the world's second largest economy, advances its economy," Li said.

Dawn of a new era

Michael Lodge, secretary-general at the ISA, told the Global Times Thursday in an e-mail that, although some environmental groups want to ban deep seabed mining completely, the activity is legal under the UN Convention on the Law of the Sea (UNCLOS), and is permitted only under the terms of UNCLOS and under a contract with the ISA.

"There is much interest in deep sea mining as a potential alternative, long term source for strategic minerals, including copper, cobalt and nickel. Interest has increased rapidly since 2011, but so far, there has been no successful commercial mining," Lodge said in the e-mail.

"It is likely that the next five years will indicate whether deep sea mining can be carried out on a commercial basis or not," Lodge said.

Australia-based Nautilus Minerals Inc is likely to become the world's first company to commercially explore deep seabed resources by a set timeframe of 2019 in the territorial waters off Papua New Guinea.

Li said that in the deep-sea mining sector, the equipment has to endure ultrahigh pressure and resist erosion from salt, as well as coping with total darkness down into the abyss.

In the future, according to Li, CMC's working environment will not enjoy the calm waters currently faced by Nautilus Minerals, whose work site is in relatively shallow waters of about 1,700 meters deep.

"For the Clarion-Clipperton zone, mining work will be conducted in open waters far away from land and will be carried out at a depth of about 4,500 to 5,500 meters. But [this means] the working ship might face severe weather conditions, including typhoons and huge waves," Li noted.

The voyage's mission

Li said knowledge on the deep sea environment is the prerequisite for maritime technologies while the main mission of the CMC experts aboard the vessel is to enrich their understanding of the zone, which is now considered a potential resources reserve.

"Teams will push the survey into greater details, based on previous scientific findings, as they treat the sea's surface as a virtual network of grids marked by coordinates sprawling over the contracted zone of 72,700 square kilometers. They will also access the scale of the reserves hidden thousands of meters down under and narrow down a trial mining area," noted Li.

They will also collect physical, chemical and biological data and evaluate the environmental impact of their mining activity, Li added.

"Available data indicates there is a reserve of 722 million tons of nodules in the Clarion-Clipperton area, and the economic value could reach $400 billion," Li said.

Li also said the target for Chinese scientists for deep-sea mining by 2020 is to excavate nodules containing manganese at a trial speed of 30 tons per hour and at a depth of 1,700 meters. In the near future, the target will be to push the depth to 4,500 meters.

Cost factor

"Deep seabed mining not only depends on the technology's reliability and the cost of mining and metallurgy, which should be comparable with the mineral development of overland mines, but also depends on the scarcity and the market prices of the metals mined," Li said.

The ISA is predicted to finalize its mining laws by year-end, the Financial Times reported in August.

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antiterror13

Brigadier
The table in the above link says 18 MW, only slightly more than before the upgrade of 17.8 MW. That is more than 2X improvement in energy efficiency in terms of their peak FLOPS performance.

great so 2x power efficiency ...I'd say Chinese new Matrix-2000 CPU is 2-3x more power efficient than Intel Xeon.

It is now very interesting that China holds top 2 fastest supercomputers in the world and both using indigenous CPU
the 1st spot : with Sunway SW26010
2nd spot with Matrix-2000 GPDSP

China should thank to Obama of this embargo and also Intel lost almost billions dollar due to the embargo since 2013
 

Figaro

Senior Member
Registered Member
China powers up new radar tech to unmask stealth fighters

Chinese arms firm tests T-ray system designed to penetrate anti-detection coatings on aircraft


PUBLISHED : Wednesday, 27 September, 2017, 9:02pm

(SCMP) China North Industries Group Corporation tested a device capable of generating terahertz radiation with unprecedented power at a military research facility in Chengdu, Sichuan province, last week, Science and Technology Daily reported on Monday.

Terahertz radiation, or T-rays, can penetrate composite materials to reach underlying metallic layers and is widely used in industrial plants to spot product defects.

Terahertz radars are already capable of finding a concealed weapon in a crowd from hundreds of metres away, and a more powerful version is under development to put on an early warning aircraft or satellite to identify and track military aircraft, including the US’ F-22 and F-35 stealth fighters.

Attempts to realise military applications for T-ray technology have been limited by the bulk and low power output of terahertz generators. The rays fall on the spectrum between microwaves and light and cannot be produced by conventional radio or optical devices.

The report said the new device could generate stable, continuous radiation at an average level up to 18 watts, and terahertz pulses with peak power close to one megawatt, on par with some military radars.

A technical executive at a vendor in China for T-ray devices used in F-35 manufacturing said the reported power levels of the device were “more than a million times higher than the power of the T-ray device used to measure the thickness of coatings on the F-35”.

“The radar-absorbent coatings on the F-35 will look as thin and transparent as stockings if [the Chinese instrument] is as powerful as they claim,” the executive said.

“It looks like they will soon be able to have an echo image of the F-35 with some high-definition details ... from a respectable distance.”

China has claimed that some of its existing very-high-frequency military radar can detect traces of stealth aircraft but doubters say the microwaves from those devices would be absorbed or deflected by stealth materials.

Qi Jiaran, deputy director of the department of microwave engineering at the Harbin Institute of Technology, said the new instrument could be a game changer.

Qi, a terahertz imaging specialist not directly involved in the Chengdu project, said the report suggested that China had made a breakthrough in some key technology and components.

But the technology was still bulky and could not be fitted easily on a plane or satellite.

“Field deployment may require power output at the kilowatt level. There is still a long way to go before we can monitor stealth fighters or bombers from space,” Qi said.

The new instrument was developed by the China Academy of Engineering Physics in Mianyang, the nation’s largest research institute for the development and production of nuclear weapons.

According to the academy’s website, efforts were under way to increase the device’s power output and shrink its size for military applications.
 
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