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Opinionated - China Chipping Away to Semiconductor Dominance

Because there is no other raw stats indicator that's credible.

The terms expenditure literally means expenditure, not output, not results.

You mean publications in English.
In fact the main obstacle of PCT is also language, most patents before entering PCT are written in Chinese, Japanese and Korean. Patent applications in those languages accounted for some 55% of worldwide filings in 2014. To facilitate translation, WIPO has developed a translation machine based on artificial intelligence that outperforms any other technology for translating the complex language used in patents, handing innovators around the world the highest-quality service yet available for accessing information on new technologies. WIPO has initially “trained” the new technology to translate Chinese, Japanese and Korean patent documents into English.
http://www.wipo.int/pressroom/en/articles/2016/article_0014.html
http://www.ag-ip-news.com/news.aspx?id=41081&lang=en


I was the first person to post the news of 45% growth in Chinese patents under PCT, so I know a bit about PCT which includes the language translation software you are talking about.

As for our put indicators, there are many:

Nature index.
PCT filings
Web of science indicators

Also I disagree that language plays any role in at least science. Almost all scientists are extremely literate, who know functional English.

Beyond that there is widespread facility available to take help from reviewers. Good science journals sit on a paper for literally months to peer review it. Before that perfecting language etc can be done.

There are even facilities that provide English language services to even write the article.

Trust me I follow this space, all top science is written in English, and Chinese scientists are not behind it. Most are reasonably confident to draft a paper to be acceptable for review.

Even if that were not possible English services are available.
 
Tsinghua Unigroup Ltd. has clinched as much as 150 billion yuan ($22 billion) of financing from two Chinese government-backed investors, amassing a pool of funds to pursue acquisitions and build a world-class semiconductor industry.

The state-linked chip-maker will receive a total of 100 billion yuan from China Development Bank, a policy lender overseen by the country’s cabinet, in the years till 2020. It’ll get another 50 billion yuan from a national chip fund set up in 2014 to drive advances in domestic semiconductors, Unigroup said in a statement on its website.

The company didn’t describe how the capital will be deployed. But Unigroup has been an aggressive acquirer and capacity-builder, the standard-bearer for an effort to wean China off its reliance on foreign technology. It’s building a $30 billion memory chip production complex in the eastern city of Nanjing that will become China’s largest when completed, and it’s preparing to expand memory and storage facilities in Wuhan.

The capital “is poised to lend strong support to Unigroup’s rapid expansion in the industry” and “speed the process of technology upgrades and lift our core competitiveness,” Unigroup said in a statement after signing agreements with the two investors. It didn’t say whether the financing will be in the form of credit or an equity investment.

China is spending an estimated $150 billion over 10 years to try and achieve a leading position in semiconductor design and manufacturing, an ambitious plan that U.S. executives and officials have warned could harmAmerican interests. Unigroup, an affiliate of the business arm of elite Tsinghua University, has become the largest semiconductor player in a country dependent on imports for components such as high-performance processors and 3D-NAND memory chips.
Unigroup and other Tsinghua affiliates have pulled off a number of acquisitions over the years, including of RDA Microelectronics Inc. and Spreadtrum Communications Inc., to beef up their design capability, and signed partnership deals with global players including Western Digital Corp. But that M&A spree has hit a wall of late: Tsinghua was forced to withdraw a planned investment in Western Digital after the deal threatened to invite U.S. government scrutiny, while a Taiwanese acquisition attempt fell through.

The company’s major business units and affiliates include integrated-circuit developer Unigroup Guoxin Co., formed via a series of mergers of state-backed entities. And its $2.8-billion Changjiang Storage was the result of a merger between Unigroup’s own memory chip operations and a government-run factory in 2016.

— With assistance by Yuan Gao

https://www.bloomberg.com/news/arti...ipmaker-secures-22-billion-to-expand-globally
 
More money is needed to invest in such key sectors so vital to China's economy in the next decade.

No more money is needed to be spent in quantum computing.

China is being beaten thoroughly in this crucial technology.

If you think you have seen the power of computing, wait till quantum computing, and you will consider today's tech as some primitive gorillas tools.

The biggest added advantage is that you have the chance to start afresh in this field. Which means you can be right from the start of the evolution of this field.

This has been a big pain for China, because some fundamental stuff like Linux kernel, basic OS, and architectural standards have already been set in conventional computing, which are hard or overcome.
 
all top science is written in English, and Chinese scientists are not behind it
All top sciences are written in native languages. It's easier for science written in German to be translated, perhaps even the authors can help, but Chinese scientists are far behind if not the most when it comes to English translation. Don't bother about citation from English publications, forget about accuracy of any translation "services" knowing complexity of science, even huge UN org like WIPO needs AI to facilitate the process.

quantum computing ... China is being beaten thoroughly in this crucial technology
How?

Quantum computing has been talked about for decades. D-Wave currently is the only vendor that offers a commercially-viable quantum computer (latest D-Wave 2000Q) uses a form of computation called “quantum annealing” that is not considered “true” quantum computing. Other U.S. vendors, like IBM and Google, and agencies like NASA are creating public-private research groups. IBM last year made quantum computing capabilities available on the IBM Cloud to help drive innovation in the space, and this month announced IBM Q, a new division that aims to commercialize universal quantum computers for both commercial and scientific uses.

In China, the highest-profile public-private partnership is through Alibaba and the Chinese Academy of Sciences (CAS). The Alibab Quantum Computing Lab is aiming to be able to coherently manipulate 30 qubits by 2020, to create a quantum simulation that has calculations speeds of today’s fastest supercomputers by 2025, and develop a quantum computer prototype with 50 to 100 qubits by 2030.

China is moving faster in innovating around quantum technologies (not only computing, but also cryptography and sensing, which includes such possibilities as quantum clocks, imagery, radar and navigation). Some milestones already materialized by China, including:
  • the development of Micius, a quantum satellite that can transmit quantum information between it and multiple ground stations, and
  • upcoming completion of the Quantum Beijing-Shanghai Trunks a ground quantum optical fiber communications system that will stretch about 1,240 miles between the cities. Future plans are to expand it nationwide over the next few years and linked with other metropolitan-level quantum communications networks, and then develop a similar network between Asia and Europe by 2020. By 2030, a global network is planned.
  • In September 2016, scientists from a lab within China 45 Electronics Technology Group Corp. announced they’d made progress in creating a quantum radar that they said will be able to detect targets up to 100 kilometers away with better accuracy than current radars.
Source:


Untitled.png

 
No more money is needed to be spent in quantum computing.

China is being beaten thoroughly in this crucial technology.

If you think you have seen the power of computing, wait till quantum computing, and you will consider today's tech as some primitive gorillas tools.

The biggest added advantage is that you have the chance to start afresh in this field. Which means you can be right from the start of the evolution of this field.

This has been a big pain for China, because some fundamental stuff like Linux kernel, basic OS, and architectural standards have already been set in conventional computing, which are hard or overcome.

Oh, pls shut ur mouth :D

China Making Swift, Competitive Quantum Computing Gains

March 27, 2017 Jeffrey Burt

dwave-200x155.jpg


Chinese officials have made no secret out of their desire to become the world’s dominant player in the technology industry. As we’ve written about before at The Next Platform,China has accelerated its investments in IT R&D over the past several years, spending tens of billions of dollars to rapidly expand the capabilities of its own technology companies to better compete with their American counterparts, while at the same time forcing U.S. tech vendors to clear various hurdles in their efforts to access the fast-growing China market.

This is being driven by a combination of China’s desire to increase its strategic, economic and military standing in the world through technology innovation and a desire to improve its national and information security, particularly given U.S. espionage efforts outlined in the documents leaked by former NSA analyst Edward Snowden. Among the goals in the country’s latest five-year plan – spanning 2016-2020 – is to establish China as a key player in technology research, development and innovation and in such areas as computing, robotics and biotechnology. Plans call for continued substantial government investment in these areas.

These efforts can be seen in such high-profile areas as HPC and supercomputing, where Chinese systems hold the top two positions in the Top500 list of the world’s fastest supercomputers, including the Sunway TaihuLight, which sits at number one with 93 petaflops of performance – more than the next five systems combined – is powered by ShenWei’s SW26010 many-core processor, a chip developed in China. At the same time, China is aggressively pushing efforts in exascale computing, with three projects underway to bring exascale systems to market. One project is calling for a prototype – called Tianhe-3 – being readied for 2018. The United States, through the National Strategic Computing Initiative, is preparing two exascale-capable systems for delivery in 2021.

U.S. officials and scientists have warned that the country that dominates the exascale era will have an edge in everything from business to national security to the military. Concern among U.S. scientists have increased in recent months over worries about possible federal budget cuts to scientific projects under the Trump Administration, which under the president’s proposed budget called for the Department of Energy’s Office of Science – which funds research into exascale computing, among other areas – to lose some $900 million from its $5 billion budget.

Scientists in the United States now are voicing concern that recent reductions in government funding and other challenges are threatening the country’s narrowing lead over China in another critical area – quantum technologies. In testimony given this month to the U.S.-China Economic and Security Review Commission, John Costello, senior analyst for cyber and East Asia at Flashpoint and a Cybersecurity Fellow for New America, warned that the United States narrowing lead in this crucial area is endangered by China’s aggressive funding and research. Losing the lead to China would have far-reaching consequences for both countries.

“The U.S. remains at the forefront of quantum information science, but its lead has slipped considerably as other nations, China in particular, have allocated extensive funding to basic and applied research,” Costello said in a written statement to the commission. “Consequently, Chinese advances in quantum information science have the potential to surpass the United States. Once operationalized, quantum technologies will also have transformative implications for China’s national security and economy. As the United States has sustained a leading position in the international affairs due in part to its technological, military, and economic preeminence, it is critical to take swift action to reverse this trend and once again place the United States as a frontrunner in emerging technologies like quantum information science.”

Quantum computing has been talked about for decades, and there have been efforts underwayaround quantum computing for much of that time. Current computers use bits that are in states either 0 or 1. Quantum systems use quantum bits – or qubits – that can be 0 and 1 at the same time. In addition, they are entangled – they share this same state with two or more qubits, but if interrupted by an outside force, will revert back to one of the two states, Costello said.

“In the future, quantum computers will be able to resolve complex algorithms, including those integral to most standard encryption methods,” he said. “Computations that would be impossible or infeasible for classical computers to perform can be performed by quantum computers at sufficient scale.”

D-Wave currently is the only vendor that offers a commercially-available quantum computer – the company’s latest D-Wave 2000Q has 2,000 qubits – though Costello said the systems use a form of computation called “quantum annealing” that is not considered “true” quantum computing. Other U.S. vendors, like IBM and Google, and agencies like NASA are creating public-private research groups. IBM last year made quantum computing capabilities available on the IBM Cloud to help drive innovation in the space, and this month announced IBM Q, a new division that aims to commercialize universal quantum computers for both commercial and scientific uses. In China, the highest-profile public-private partnership is through Alibaba and the Chinese Academy of Sciences (CAS). The Alibab Quantum Computing Lab is aiming to be able to coherently manipulate 30 qubits by 2020, to create a quantum simulation that has calculations speeds of today’s fastest supercomputers by 2025, and develop a quantum computer prototype with 50 to 100 qubits by 2030.

In his lengthy testimony, Costello argued that China – due in large part to significant government investment – is moving faster in innovating around quantum technologies (not only computing, but also cryptography and sensing, which includes such possibilities as quantum clocks, imagery, radar and navigation) and urged U.S. lawmakers to take steps to at least keep pace with efforts by the Chinese government. He noted some successes by China already, including the development of Micius, a quantum satellite that can transmit quantum information between it and multiple ground stations, and upcoming completion of the Quantum Beijing-Shanghai Trunks a ground quantum optical fiber communications system that will stretch about 1,240 miles between the cities. Plans are to expand it nationwide over the next few years and linked with other metropolitan-level quantum communications networks, and then develop a similar network between Asia and Europe by 2020. By 2030, a global network is planned. In September 2016, scientists from a lab within China 45 Electronics Technology Group Corp. announced they’d made progress in creating a quantum radar that they said will be able to detect targets up to 100 kilometers away with better accuracy than current radars.

Costello’s comments about the danger the United States faces in falling behind in the quantum computing research and innovations echoes what others have found. He noted a study by MIT and a report in The Economist that the reduction in government funding has slowed innovation. In addition, a 2016 report by the Obama Administration focused on federally-funded quantum IS programs also noted a narrowing innovation gap, caused by multiple factors, including an instability of funding levels, education and workforce training, technology and knowledge transfer, and institutional boundaries within academic institutions. A key advantage for China is the stability of funding, Costello said.

“The lack of consistent funding at home, coupled with ample Chinese funding abroad, may persuade researchers to collaborate with China on larger projects or pursue their research in Chinese institutions,” he said, pointing out that an Austrian scientist had developed the technical expertise for a quantum satellite like Micius, but was unable to get funding in Europe, opening the door to China developing the technology. “It should be noted that these factors do not account for the substantial advantages the U.S. enjoys over China in the area of overall quality and number of academic institutions, venture capital investment, industrial and technological base, and quality and speed of private innovation. However, these advantages are narrowed considerably by China rising economic dominance, multiple forms of tech transfer, talent recruitment programs, and comprehensive state-level R&D funding programs.”

His recommendations to Congress focused on ensuring lawmakers better understand emerging technologies like quantum IS, machine learning and artificial intelligence. Included in his recommendations are the creation of publicly-funded think tanks to study issues around the technologies and China’s innovation efforts and the restoration of public funding for the Office of Technology Assessment (OTA), which was funded between 1972 and 1995 to give Congress in-depth evaluations and policy options around emerging technologies. Current agencies like the Government Accountability Office and Congressional Research Service haven’t been able to give lawmakers the same level of expertise as the OTA. Costello also called for the creation of an interagency Commission for Investment in Strategic Emerging Technologies, which could better assess U.S. funding efforts around R&D, make recommendations to Congress and coordinate the work of relevant federal agencies.

It’s important that the country takes such steps, he said.

“Due to the pace of innovation and economy, the first-to-market advantage here is exponential and will yield near intractable market dominance,” Costello said. “The United States is already challenged by the industrial might and growing human resource base of China’s emergence on the world stage. Some of the few, though critical, advantages the United States possesses is dominance in emerging technologies, world-class academic and research institutions, and a central position in information and Internet technologies. If continued Chinese investment in these areas are not met with an appropriate U.S. response, these factors will shift, likely at the expense of the United States, and the strategic balance of power will continue to tilt in China’s favor.”

https://www.nextplatform.com/2017/03/27/china-making-swift-quantum-computing-gains-u-s/
 
No more money is needed to be spent in quantum computing.

China is being beaten thoroughly in this crucial technology.

If you think you have seen the power of computing, wait till quantum computing, and you will consider today's tech as some primitive gorillas tools.

The biggest added advantage is that you have the chance to start afresh in this field. Which means you can be right from the start of the evolution of this field.

This has been a big pain for China, because some fundamental stuff like Linux kernel, basic OS, and architectural standards have already been set in conventional computing, which are hard or overcome.

you cannot be beaten in technology, every six month, everything is 2x faster. New OS can be designed etc. you just need enough investment. in this regard, India too can catch up in the sector if enough money is throw at it.
 
you cannot be beaten in technology, every six month, everything is 2x faster. New OS can be designed etc. you just need enough investment. in this regard, India too can catch up in the sector if enough money is throw at it.
India is the tortoise. I'm sure it will catch up to the hare in fairytales only
 
How?

Quantum computing has been talked about for decades. D-Wave currently is the only vendor that offers a commercially-viable quantum computer (latest D-Wave 2000Q) uses a form of computation called “quantum annealing” that is not considered “true” quantum computing. Other U.S. vendors, like IBM and Google, and agencies like NASA are creating public-private research groups. IBM last year made quantum computing capabilities available on the IBM Cloud to help drive innovation in the space, and this month announced IBM Q, a new division that aims to commercialize universal quantum computers for both commercial and scientific uses.

In China, the highest-profile public-private partnership is through Alibaba and the Chinese Academy of Sciences (CAS). The Alibab Quantum Computing Lab is aiming to be able to coherently manipulate 30 qubits by 2020, to create a quantum simulation that has calculations speeds of today’s fastest supercomputers by 2025, and develop a quantum computer prototype with 50 to 100 qubits by 2030.

China is moving faster in innovating around quantum technologies (not only computing, but also cryptography and sensing, which includes such possibilities as quantum clocks, imagery, radar and navigation). Some milestones already materialized by China, including:
  • the development of Micius, a quantum satellite that can transmit quantum information between it and multiple ground stations, and
  • upcoming completion of the Quantum Beijing-Shanghai Trunks a ground quantum optical fiber communications system that will stretch about 1,240 miles between the cities. Future plans are to expand it nationwide over the next few years and linked with other metropolitan-level quantum communications networks, and then develop a similar network between Asia and Europe by 2020. By 2030, a global network is planned.
  • In September 2016, scientists from a lab within China 45 Electronics Technology Group Corp. announced they’d made progress in creating a quantum radar that they said will be able to detect targets up to 100 kilometers away with better accuracy than current radars.

This is literally a US document to Congress.

It's sole purpose is to seek more funding for research. They deliberately play up the "China threat" to seek more funding.

If you want a more balanced view, have a look at this economist article:

http://www.economist.com/technology-quarterly/2017-03-09/quantum-devices

This is a very good piece on the whole field.

Oh, pls shut ur mouth :D

China Making Swift, Competitive Quantum Computing Gains

March 27, 2017 Jeffrey Burt

dwave-200x155.jpg


Chinese officials have made no secret out of their desire to become the world’s dominant player in the technology industry. As we’ve written about before at The Next Platform,China has accelerated its investments in IT R&D over the past several years, spending tens of billions of dollars to rapidly expand the capabilities of its own technology companies to better compete with their American counterparts, while at the same time forcing U.S. tech vendors to clear various hurdles in their efforts to access the fast-growing China market.

This is being driven by a combination of China’s desire to increase its strategic, economic and military standing in the world through technology innovation and a desire to improve its national and information security, particularly given U.S. espionage efforts outlined in the documents leaked by former NSA analyst Edward Snowden. Among the goals in the country’s latest five-year plan – spanning 2016-2020 – is to establish China as a key player in technology research, development and innovation and in such areas as computing, robotics and biotechnology. Plans call for continued substantial government investment in these areas.

These efforts can be seen in such high-profile areas as HPC and supercomputing, where Chinese systems hold the top two positions in the Top500 list of the world’s fastest supercomputers, including the Sunway TaihuLight, which sits at number one with 93 petaflops of performance – more than the next five systems combined – is powered by ShenWei’s SW26010 many-core processor, a chip developed in China. At the same time, China is aggressively pushing efforts in exascale computing, with three projects underway to bring exascale systems to market. One project is calling for a prototype – called Tianhe-3 – being readied for 2018. The United States, through the National Strategic Computing Initiative, is preparing two exascale-capable systems for delivery in 2021.

U.S. officials and scientists have warned that the country that dominates the exascale era will have an edge in everything from business to national security to the military. Concern among U.S. scientists have increased in recent months over worries about possible federal budget cuts to scientific projects under the Trump Administration, which under the president’s proposed budget called for the Department of Energy’s Office of Science – which funds research into exascale computing, among other areas – to lose some $900 million from its $5 billion budget.

Scientists in the United States now are voicing concern that recent reductions in government funding and other challenges are threatening the country’s narrowing lead over China in another critical area – quantum technologies. In testimony given this month to the U.S.-China Economic and Security Review Commission, John Costello, senior analyst for cyber and East Asia at Flashpoint and a Cybersecurity Fellow for New America, warned that the United States narrowing lead in this crucial area is endangered by China’s aggressive funding and research. Losing the lead to China would have far-reaching consequences for both countries.

“The U.S. remains at the forefront of quantum information science, but its lead has slipped considerably as other nations, China in particular, have allocated extensive funding to basic and applied research,” Costello said in a written statement to the commission. “Consequently, Chinese advances in quantum information science have the potential to surpass the United States. Once operationalized, quantum technologies will also have transformative implications for China’s national security and economy. As the United States has sustained a leading position in the international affairs due in part to its technological, military, and economic preeminence, it is critical to take swift action to reverse this trend and once again place the United States as a frontrunner in emerging technologies like quantum information science.”

Quantum computing has been talked about for decades, and there have been efforts underwayaround quantum computing for much of that time. Current computers use bits that are in states either 0 or 1. Quantum systems use quantum bits – or qubits – that can be 0 and 1 at the same time. In addition, they are entangled – they share this same state with two or more qubits, but if interrupted by an outside force, will revert back to one of the two states, Costello said.

“In the future, quantum computers will be able to resolve complex algorithms, including those integral to most standard encryption methods,” he said. “Computations that would be impossible or infeasible for classical computers to perform can be performed by quantum computers at sufficient scale.”

D-Wave currently is the only vendor that offers a commercially-available quantum computer – the company’s latest D-Wave 2000Q has 2,000 qubits – though Costello said the systems use a form of computation called “quantum annealing” that is not considered “true” quantum computing. Other U.S. vendors, like IBM and Google, and agencies like NASA are creating public-private research groups. IBM last year made quantum computing capabilities available on the IBM Cloud to help drive innovation in the space, and this month announced IBM Q, a new division that aims to commercialize universal quantum computers for both commercial and scientific uses. In China, the highest-profile public-private partnership is through Alibaba and the Chinese Academy of Sciences (CAS). The Alibab Quantum Computing Lab is aiming to be able to coherently manipulate 30 qubits by 2020, to create a quantum simulation that has calculations speeds of today’s fastest supercomputers by 2025, and develop a quantum computer prototype with 50 to 100 qubits by 2030.

In his lengthy testimony, Costello argued that China – due in large part to significant government investment – is moving faster in innovating around quantum technologies (not only computing, but also cryptography and sensing, which includes such possibilities as quantum clocks, imagery, radar and navigation) and urged U.S. lawmakers to take steps to at least keep pace with efforts by the Chinese government. He noted some successes by China already, including the development of Micius, a quantum satellite that can transmit quantum information between it and multiple ground stations, and upcoming completion of the Quantum Beijing-Shanghai Trunks a ground quantum optical fiber communications system that will stretch about 1,240 miles between the cities. Plans are to expand it nationwide over the next few years and linked with other metropolitan-level quantum communications networks, and then develop a similar network between Asia and Europe by 2020. By 2030, a global network is planned. In September 2016, scientists from a lab within China 45 Electronics Technology Group Corp. announced they’d made progress in creating a quantum radar that they said will be able to detect targets up to 100 kilometers away with better accuracy than current radars.

Costello’s comments about the danger the United States faces in falling behind in the quantum computing research and innovations echoes what others have found. He noted a study by MIT and a report in The Economist that the reduction in government funding has slowed innovation. In addition, a 2016 report by the Obama Administration focused on federally-funded quantum IS programs also noted a narrowing innovation gap, caused by multiple factors, including an instability of funding levels, education and workforce training, technology and knowledge transfer, and institutional boundaries within academic institutions. A key advantage for China is the stability of funding, Costello said.

“The lack of consistent funding at home, coupled with ample Chinese funding abroad, may persuade researchers to collaborate with China on larger projects or pursue their research in Chinese institutions,” he said, pointing out that an Austrian scientist had developed the technical expertise for a quantum satellite like Micius, but was unable to get funding in Europe, opening the door to China developing the technology. “It should be noted that these factors do not account for the substantial advantages the U.S. enjoys over China in the area of overall quality and number of academic institutions, venture capital investment, industrial and technological base, and quality and speed of private innovation. However, these advantages are narrowed considerably by China rising economic dominance, multiple forms of tech transfer, talent recruitment programs, and comprehensive state-level R&D funding programs.”

His recommendations to Congress focused on ensuring lawmakers better understand emerging technologies like quantum IS, machine learning and artificial intelligence. Included in his recommendations are the creation of publicly-funded think tanks to study issues around the technologies and China’s innovation efforts and the restoration of public funding for the Office of Technology Assessment (OTA), which was funded between 1972 and 1995 to give Congress in-depth evaluations and policy options around emerging technologies. Current agencies like the Government Accountability Office and Congressional Research Service haven’t been able to give lawmakers the same level of expertise as the OTA. Costello also called for the creation of an interagency Commission for Investment in Strategic Emerging Technologies, which could better assess U.S. funding efforts around R&D, make recommendations to Congress and coordinate the work of relevant federal agencies.

It’s important that the country takes such steps, he said.

“Due to the pace of innovation and economy, the first-to-market advantage here is exponential and will yield near intractable market dominance,” Costello said. “The United States is already challenged by the industrial might and growing human resource base of China’s emergence on the world stage. Some of the few, though critical, advantages the United States possesses is dominance in emerging technologies, world-class academic and research institutions, and a central position in information and Internet technologies. If continued Chinese investment in these areas are not met with an appropriate U.S. response, these factors will shift, likely at the expense of the United States, and the strategic balance of power will continue to tilt in China’s favor.”

https://www.nextplatform.com/2017/03/27/china-making-swift-quantum-computing-gains-u-s/

Again, it is a propaganda report created to extract more money out of US Government.

US is way ahead in quantum computing, and quantum sensors. And this is in open domain. God knows what they are cooking in secret.

What China is good at is quantum cryptography, which is largely due to one man--- Pan Jianwei. He single handedly established this field, and then attracted top talent like Lu Chaoyang, and others.

@Bussard Ramjet You certainly have proven yourself lacking credentials when you made the statement of possessing more knowledge than most of the Chinese here.

How did I prove to have lack of credentials?

It is a fact that I know more about certain domains of knowledge than many Chinese here.

Things like science and scientific publications, are openly available online.

Just because some one is Chinese, doesn't mean they know everything about their country the best.
 
No, my friend. All top science, today, is published in english journals. ALL. Germans publish it in english. Chinese publish it in English.

This is a fact. It is such a widely recognized fact that you debating this is frankly, very shallow.

I would recommend you to talk to a scientist and discover for yourself.

And almost all top Chinese scientists, are returnees from abroad, who have worked in english for a long time. Even the ones totally educated in China are also proficient in English.



This is literally a US document to Congress.

It's sole purpose is to seek more funding for research. They deliberately play up the "China threat" to seek more funding.

If you want a more balanced view, have a look at this economist article:

http://www.economist.com/technology-quarterly/2017-03-09/quantum-devices

This is a very good piece on the whole field.



Again, it is a propaganda report created to extract more money out of US Government.

US is way ahead in quantum computing, and quantum sensors. And this is in open domain. God knows what they are cooking in secret.

What China is good at is quantum cryptography, which is largely due to one man--- Pan Jianwei. He single handedly established this field, and then attracted top talent like Lu Chaoyang, and others.



How did I prove to have lack of credentials?

It is a fact that I know more about certain domains of knowledge than many Chinese here.

Things like science and scientific publications, are openly available online.

Just because some one is Chinese, doesn't mean they know everything about their country the best.
In quantum computing area, USA is in the number 1 position with a significant margin, but China is at least on par with USA on the other two: quantum cryptography and quantum sensor, based on the patent filing from the link you provided

http://www.economist.com/technology-quarterly/2017-03-09/quantum-devices
the data is about 2015, and China's super player, Jack Ma's Alibaba, teamed with Chinese Academy of Sciences in 2015, joined the quantum computing game as well. I believe the patent filing gap would be reduced very quickly. the graph shown in the reference also show this trend: the patent filing from China start to explode in recent years while others kept flat at best.

in quantum computing, three big players in the game, Google, IBM and Microsoft. outside USA, Alibaba is almost the only comparable player based on deep pocket, commercial power, and brain resources.

quantum computing might be the next area to generate tons of billionaires. keep an eye on it.

btw, where is India in all those quantum competitions? in your reference, India is nonexistent in any of the areas, zero patent filing, zero anything. is this what you should care more about? after all, Google is lead by an Indian guy, his homeland just scoring zero is rather upsetting.
 
It is a fair bet that SMIC will become a $10 billion fab company by 2020

http://www.scmp.com/tech/china-tech...-production-capacity-it-targets-strategic-new

the world's 2nd largest pure-play foundry after TSMC in 4 years. :enjoy:

@Bussard Ramjet India? :lol::lol:

China's SMIC ramps up chip production capacity, as it targets strategic new acquisitions

Semiconductor giant sees expansion driving business this year, bolstering the mainland's ambitious plans for the industry


Mar 28, 2017 9:18 AM EDT

8d57d6c0-1391-11e7-8424-32eaba91fe03_image_hires_211809.JPG


Semiconductor Manufacturing International Corp (SMIC), mainland China's largest contract chip maker, is ratcheting up its domestic production capacity this year to meet rising orders from hi-tech components suppliers to smartphones, cars and so-called Internet of Things devices.

"The 2017 order books are looking very strong," Gareth Kung, SMIC's executive vice-president for investment, strategic business development and finance, told the South China Morning Post on Tuesday.

With more than US$2 billion cash on hand, SMIC is also looking at another strategic acquisition to bolster its expansion initiatives, following its takeover of Italian contract chip maker LFoundry last year, Kung said.

Its efforts to further increase manufacturing capacity and boost customer orders would reflect positively on mainland China's ambitions to create an advanced semiconductor industry.

Shanghai-based SMIC was ranked by research firm Gartner as the world's fifth-largest semiconductor foundry by revenue in 2015, behind Taiwan Semiconductor Manufacturing Company, Globalfoundries, United Microelectronics Corp and Samsung Foundry, a unit of the South Korean electronics giant.

Chip maker SMIC on target for 20pc growth this year

SMIC, which recently reported record-high revenue of nearly US$3 billion for last year, plans to accelerate its move to 28-nanometre fabrication process for creating integrated circuits on silicon wafers.

Kung said 28nm production will be focused at the company's fabrication plants, which are called fabs, in Beijing and Shanghai.

The company currently operates four fabs in Shanghai, two in Beijing, and one each in Tianjin and Shenzhen.

"SMIC is ramping up 28-nanometre, primarily focusing on the PolySiON/LP process for [Qualcomm's] Snapdragon 200 products," Huatai Research analyst Ken Hui said.

Kung pointed out that chips made at SMIC's 28nm fabs are used on a broad range of applications, including those used in smartphones, advanced set-top boxes, high-speed Wi-fi devices, as well Internet of Things devices.

Internet of Things is generally described as a vast network of smart, connected devices embedded with electronics and software, which gather and send data remotely over the internet without any human interaction.

SMIC on track for record annual earnings, bolstered by robust global demand

Worldwide spending on Internet of Things is forecast to reach US$1.29 trillion by 2020, led by companies in the manufacturing, transportation and utilities industries, according to technology research firm International Data Corp.

Kung said fingerprint sensors remain a growing market segment for SMIC, with new Chinese suppliers increasing their orders this year. These chips are built on the older 0.18-micron process technology.

"Some of our customers are targeting fingerprint sensors for use in automobiles, door locks and credit cards," Kung said.

On acquisitions, Kung indicated that SMIC was in discussions with some potential new targets.

The company last year paid €49 million (US$53.2 million) to buy a controlling 70 per cent stake in Italian manufacturer LFoundry.

"We have a number of interesting targets, but the mergers and acquisitions process takes a lot of patience," Kung said.
 
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Shanghai-based SMIC was ranked by research firm Gartner as the world's fifth-largest semiconductor foundry by revenue in 2015, behind Taiwan Semiconductor Manufacturing Company, Globalfoundries, United Microelectronics Corp and Samsung Foundry, a unit of the South Korean electronics giant.
the world's 2nd largest pure-play foundry after TSMC in 4 years.
From #5 to #2 in 4 years, huge challenge, wish SMIC success!
With more than US$2 billion cash on hand,
€49 million (US$53.2 million) to buy a controlling 70 per cent stake in Italian manufacturer LFoundry.
"We have a number of interesting targets, but the mergers and acquisitions process takes a lot of patience,"
Lfoundry is too small and insignificant to economy of scale, unless it serves as route-to-market vehicle otherwise it's no value. I'm more interested in what are the other M&A targets, slightly bigger ones. Ideally Globalfoundries, UAE fund is ready to sell it but may face Samsung objection as well as US political scrutiny, well maybe that's why he said "takes a lot of patience". Perhaps TowerJazz or X-Fab? Not big but at least made it to top 10.
 
April 10, 2017 11:00 am JST

Fingerprint chip provider Goodix eyes smart vehicles and connected devices


Founder confident Chinese chip sector will be as competitive as US

CHENG TING-FANG, Nikkei staff writer

20170407Goodix_article_main_image.jpg

Shenzhen Huiding Technology, known as Goodix, has grabbed substantial orders in fingerprint chips from overseas rivals over the last two years. (Photo by Cheng Ting-Fang)

BARCELONA/TAIPEI -- For Shenzhen Huiding Technology, also known as Goodix, a leading provider of the chips that underpin fingerprint technology in smartphones, being a Chinese company is a blessing.

Goodix might not yet be a household name, but the up and coming company that is listed in Shanghai became China's No.1 chip design company by market capitalization less than a month after it went public last October. Its shares have advanced almost 250% in the last six months to close at 97.3 yuan ($14.1) on Friday.

"Being more close to Chinese smartphone makers is the key to the success of Goodix... We grow rapidly because our clients also become stronger and stronger and there are more China-based device makers than in any other place of the world," said Founding Chairman and Chief Executive David Chang in a recent interview with the Nikkei Asian Review.

Chang added that compared with its two top competitors -- Synaptics of the U.S. and Fingerprint Cards of Sweden -- Goodix has more advantages due to its ability to directly communicate with Chinese customers and expand its businesses in the world's largest consumer market.

The company's fingerprint solutions can be seen in smartphones by Huawei Technologies, Oppo, Vivo, Xiaomi, Lenovo Group, Meizu, Gionee, LG Electronics and other Chinese brands. U.S. tech group Apple uses an in-house solution for its popular iPhone.

Excluding the iPhone, in 2016 Goodix was the world's No.2 fingerprint sensor supplier after Fingerprint Cards, according to research company IHS. Just a year earlier, the Shenzhen-based tech company was relatively small with few big-name customers.

"Goodix has had tremendous growth including market share gains in the last two years. It won market share from competitors thanks to a combination of strong pricing and proven products," said Jamie Fox, an analyst at IHS. "Also, it has customers in China where the market grew even faster, having started from a very low position."

However, some analysts are concerned that the fingerprint chip market could see a price war in 2017, although they agree that the volume of the sensors will continue to grow.

"We believe there will be more phones embedded with fingerprint features but we are worried that Goodix could face fierce price competition in 2017 that could have an impact on its future earnings," said Mark Li, an analyst at Bernstein.

Li said he is also concerned about Goodix's overseas expansion as it might face patent issues in some markets.

However, Chang said he expects fingerprint applications to be adopted in more devices despite the fast maturing smartphone market and the fact that the 10th anniversary of the iPhone could squeeze the sales of most of Goodix's Chinese and Korean mobile clients.

"We do see uncertainties in the market for this year but people still need to work hard no matter if it is the 10th or whatever anniversary of the iPhone," said Chang.

He added that his company was now looking to expand into smart automobiles and various connected devices, where he sees great growth potential.

For full-year 2016, the company posted on April 8 that revenue grew 175% to nearly 3.079 billion yuan ($446 million) from a year ago, and net profit surged more than 126% year-on-year to 856 million yuan. Most of the sales still came from China, though it has already set up marketing offices in Taiwan, South Korea, Japan and the U.S. for its global expansion.

The rise of Goodix came as Beijing aggressively pushed to build a competitive chip sector and reduce reliance on foreign companies such as Qualcomm, Intel, Micron, Toshiba, Samsung Electronics and SK Hynix. Chips are considered crucial components in electronic devices and key to national security.

Chang said he is happy to see thriving and enthusiastic investment currently in the semiconductor sector.

"If China can continue the investment for years... As we have both a huge market and big customers, I am confident that we can also build a chip industry that is as competitive as or even stronger than the U.S.," Chang said.

Founded in 2002 by Chang, Goodix started out as a tiny supplier making chips for landline phones. After 2008, it began to provide touch panel controller chips to local device makers and grew to become China's largest homegrown supplier in the sector. By 2013, it expanded its business into fingerprint sensors and quickly grabbed share from overseas rivals.

Taiwan's MediaTek, the world's largest mobile chip provider to China, is one of the early investors in Goodix, controlling 21.34% of the Chinese company. Goodix's products are mainly produced by Taiwan Semiconductor Manufacturing Co., the world's top contract chipmaker.

http://asia.nikkei.com/Business/Com...s-smart-vehicles-and-connected-devices?page=2

@Bussard Ramjet India? :D
 
April 10, 2017 11:00 am JST

Fingerprint chip provider Goodix eyes smart vehicles and connected devices


Founder confident Chinese chip sector will be as competitive as US

CHENG TING-FANG, Nikkei staff writer

20170407Goodix_article_main_image.jpg

Shenzhen Huiding Technology, known as Goodix, has grabbed substantial orders in fingerprint chips from overseas rivals over the last two years. (Photo by Cheng Ting-Fang)

BARCELONA/TAIPEI -- For Shenzhen Huiding Technology, also known as Goodix, a leading provider of the chips that underpin fingerprint technology in smartphones, being a Chinese company is a blessing.

Goodix might not yet be a household name, but the up and coming company that is listed in Shanghai became China's No.1 chip design company by market capitalization less than a month after it went public last October. Its shares have advanced almost 250% in the last six months to close at 97.3 yuan ($14.1) on Friday.

"Being more close to Chinese smartphone makers is the key to the success of Goodix... We grow rapidly because our clients also become stronger and stronger and there are more China-based device makers than in any other place of the world," said Founding Chairman and Chief Executive David Chang in a recent interview with the Nikkei Asian Review.

Chang added that compared with its two top competitors -- Synaptics of the U.S. and Fingerprint Cards of Sweden -- Goodix has more advantages due to its ability to directly communicate with Chinese customers and expand its businesses in the world's largest consumer market.

The company's fingerprint solutions can be seen in smartphones by Huawei Technologies, Oppo, Vivo, Xiaomi, Lenovo Group, Meizu, Gionee, LG Electronics and other Chinese brands. U.S. tech group Apple uses an in-house solution for its popular iPhone.

Excluding the iPhone, in 2016 Goodix was the world's No.2 fingerprint sensor supplier after Fingerprint Cards, according to research company IHS. Just a year earlier, the Shenzhen-based tech company was relatively small with few big-name customers.

"Goodix has had tremendous growth including market share gains in the last two years. It won market share from competitors thanks to a combination of strong pricing and proven products," said Jamie Fox, an analyst at IHS. "Also, it has customers in China where the market grew even faster, having started from a very low position."

However, some analysts are concerned that the fingerprint chip market could see a price war in 2017, although they agree that the volume of the sensors will continue to grow.

"We believe there will be more phones embedded with fingerprint features but we are worried that Goodix could face fierce price competition in 2017 that could have an impact on its future earnings," said Mark Li, an analyst at Bernstein.

Li said he is also concerned about Goodix's overseas expansion as it might face patent issues in some markets.

However, Chang said he expects fingerprint applications to be adopted in more devices despite the fast maturing smartphone market and the fact that the 10th anniversary of the iPhone could squeeze the sales of most of Goodix's Chinese and Korean mobile clients.

"We do see uncertainties in the market for this year but people still need to work hard no matter if it is the 10th or whatever anniversary of the iPhone," said Chang.

He added that his company was now looking to expand into smart automobiles and various connected devices, where he sees great growth potential.

For full-year 2016, the company posted on April 8 that revenue grew 175% to nearly 3.079 billion yuan ($446 million) from a year ago, and net profit surged more than 126% year-on-year to 856 million yuan. Most of the sales still came from China, though it has already set up marketing offices in Taiwan, South Korea, Japan and the U.S. for its global expansion.

The rise of Goodix came as Beijing aggressively pushed to build a competitive chip sector and reduce reliance on foreign companies such as Qualcomm, Intel, Micron, Toshiba, Samsung Electronics and SK Hynix. Chips are considered crucial components in electronic devices and key to national security.

Chang said he is happy to see thriving and enthusiastic investment currently in the semiconductor sector.

"If China can continue the investment for years... As we have both a huge market and big customers, I am confident that we can also build a chip industry that is as competitive as or even stronger than the U.S.," Chang said.

Founded in 2002 by Chang, Goodix started out as a tiny supplier making chips for landline phones. After 2008, it began to provide touch panel controller chips to local device makers and grew to become China's largest homegrown supplier in the sector. By 2013, it expanded its business into fingerprint sensors and quickly grabbed share from overseas rivals.

Taiwan's MediaTek, the world's largest mobile chip provider to China, is one of the early investors in Goodix, controlling 21.34% of the Chinese company. Goodix's products are mainly produced by Taiwan Semiconductor Manufacturing Co., the world's top contract chipmaker.

http://asia.nikkei.com/Business/Com...s-smart-vehicles-and-connected-devices?page=2

@Bussard Ramjet India? :D
:china::china::china::china::china::china:
 

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