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China on way to self reliance in 28-nm chips; to attain maturity in 14-mm category as well

There are smart people who present to be stupid and asked Huawei for the codes. Well unbelievable there are some people who can decipher the codes. Or easier there are tools that automatically read the version. Huawei OS is android 10 emui 11.
So who are the smart people who can decipher these codes without the source code.
These code diciphering tools are downloadable in Playstore as well.

:omghaha: :omghaha: :omghaha:
Are these the same very clever Khmer Krom hackers who feigned as Chinese and penetrated into the White House server and planted a single star Red Flag?
 
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SMIC spending $9 bn to build China’s most-advanced wafer plant
Analysts say the facility will be able to make about 10% of the world’s 14nm chips; More advanced processes such as 12nm, N+1, and N+2 will also be produced at the new plant
by Iris Hong Feb 09 2021
SMIC spending $9 bn to build China’s most-advanced wafer plant

SMIC is building a new wafer plant as China strengthens its supply of computer chips after sanctions imposed by the Trump Administration last year. File photo: Reuters.
(ATF) The sub-14-nanometer wafer plant that Semiconductor Manufacturing International Co (SMIC) is spending $9.06 billion to build has been identified by the local government as a key project for 2021, as the country bids to boost its semiconductor supply chain amid ongoing US sanctions in the tech sector.
Analysts say the facility, once up and running, will be able to make about 10% of the world’s 14nm chips. More advanced processes such as 12nm, N+1, and N+2 will also be produced at the new plant, according to plans previously revealed by the company.
N+1 and N+2 are internally developed technologies that the Chinese chipmaker uses to manufacture 7nm chips without an advanced photolithography machine. The nodes are reportedly comparable in stability but weaker in performance, compared to 7nm chips made by TSMC, which is already able to produce 5nm chips (and has 3nm chips in R&D stage). N+2 is an upgrade from N+1 and uses improved methodologies to render better performance on 7nm.

SMIC’s new 12-inch wafer plant in Shanghai was one of about a dozen computer chip projects included in a key project list for 2021 released by the Shanghai Municipal and Development Reform Commission on Sunday.
The list includes 166 projects in total in various sectors such as technological innovation, advanced manufacturing, education, public health, energy, and transportation.
Also on the list are a Huawei research and development (R&D) centre and Phase I of Tesla’s mega-factory.
AN EVEN LARGER PLANT
In the meantime, Beijing Economic-Technological Development Area (BDA) last week announced the construction kickoff of another SMIC plant in the Chinese capital, with planned investment of $7.6 billion. The Beijing facility, slated to be China’s largest 12-inch wafer plant, will be focused on more mature technologies - 28 nanometer and above. It has a planned capacity of 100,000 per month.
The SMIC Beijing plant was among 129 key projects totaling 400 billion yuan ($62.2 billion) of investment that made the BDA their new home.
While the Shanghai plant fits well into SMIC’s strategy to move into more advanced manufacturing nodes to catch up to the competition, the Beijing plant will help expand the chipmaker’s capacity in mature nodes to keep up with customer demand.
A SWITCH TO MATURE TECHNOLOGIES
SMIC revealed last week as it announced the fourth-quarter (Q4) financial results that it will allocate the majority of its $4.3 billion capital expenditure (capex) for 2021 to expand mature technologies, as US sanctions have squeezed revenues from advanced processes and eroded margins.
The former US president Trump last year signed orders that prohibited semiconductor companies using American technology from supplying chips to Huawei, and SMIC was one of them. The former Trump administration subsequently added SMIC to an export control blacklist, cutting it off from obtaining chip equipment from American companies.
To handicap SMIC’s capability in advanced technologies, the US Department of Commerce imposed a stricter review policy for products or technologies used at 10nm and below.
US sanctions have already affected SMIC’s bottom line. Its share of revenue from the 14 nanometre (14nm) and 28nm processes – the most advanced chips - has decreased from 14.6% in Q3 to 5% in Q4. Several analysts say this is probably because SMIC has lost orders from Huawei, one of its biggest customers, since September.
The company’s gross margin has decreased to 18% in Q4, compared with 23.8% in the previous quarter and 24.2% a year earlier.
CHINA’S FIRST FINFET WAFER PLANT
SMIC’s Shanghai wafer plant, being constructed by its wholly-owned subsidiary Semiconductor Manufacturing South China Corporation (SMSC), is China’s first production line capable of so-called fin field-effect transistor (FinFET) manufacturing. FinFET semiconductors are denser and more efficient than non-FinFET chips.
SMIC revealed in May last year that the total investment planned for the Shanghai wafer plant was $9.06 billion with the government-backed China Integrated Circuit Industry Investment Fund and Shanghai Integrated Circuit Industry Investment Fund providing part of the funding and owning 37.6% and 23.8% stakes in the joint venture respectively. The remainder of the funding will come from SMIC’s own financing channels.
In August of last year, SMIC said it would use 18 billion yuan ($2.8 billion) out of the 45.6 billion yuan ($7.1 billion) raised from its initial public offering (IPO) on the Shanghai Stock Exchange STAR Market to fund the 12-inch wafer plant project.
As of May last year, SMSC was capable of making 6,000 14-nm wafers per month, but it wants to reach a manufacturing capacity of 35,000 units per month for 14-nm and below wafers, according to a filing by the Hong Kong-listed company.
"SCMC's planned capacity of 35,000 per month is about 10% of the world's 14nm manufacturing capacity," Geng Chen, an analyst from Hua Chuang Securities, said.
According to the research and analysis of Hua Chuang Securities, the plant's manufacturing capacity was estimated to have reached 15,000 per month at the end last year. It started to generate sales last year and accounted for about 1.3% of the company’s revenue from wafer manufacturing in Q1 of 2020.
Besides 14nm, SMIC’s more advanced nodes, 12nm and N+1, have also started mass production, as revealed by co-chief executive Liang Mong-Song in December. Liang said the company had finished developing the 7nm process and planned for trial mass-production in April 2021, plus development of 5nm and 3nm production in the future.
“SMIC’s development of the N+1 and N+2 processes is facing challenges in the short term brought by US’s restriction on equipment exports. The company reduced its 2020 capital expenditure from $6.7 billion to $5.9 billion in the third quarter. We can see that SMIC has slowed its development of advanced-node technologies. However, in the long run it still has very high potential,” Geng said.
Hua Chuang Securities expects SMIC to outperform peers such as UMC and Vanguard International Semiconductor Corporation in terms of profitability, citing China’s fast-growing demand for electronics and SMIC’s well-established connections with its mainland Chinese customers.
“US-China trade disputes and the sanctions on Huawei have also pushed Chinese fabless companies to be more aware of localisation. The chip designer SG Micro Corp, for example, is now shifting their orders to domestic foundries such as SMIC,” Geng said.
In Q4, SMIC reported sales of $981 million, up 16.9% year-on-year, but down 9.4% quarter-on-quarter. The company expects revenue growth to slow in 2021, at a “mid-to-high” single-digit pace
 
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Give us the link to verify the story.
Here reports in German with links to English. First appeared on “computer bild”, which I see as credible source. Understandable, impossible for Huawei to develop an OS in such short period of time.

 
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ok so China has a operating system

why has its handsets sales collapsed in West

apparently now Huawei wants to build car batteries rather than phones
 
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No country other than China can do that.
That's not true. China is using technology provided by west. Each and every transistor type or shape China knows, each and every process China knows was initially developed somewhere else.
 
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That's not true. China is using technology provided by west. Each and every transistor type or shape China knows, each and every process China knows was initially developed somewhere else.


This is like saying that current US space and military technology derived from Chinese ancient rocket and gunpowder technology.

West may have initiated the semiconductor production technology, but what china currently use with her latest 28nm is China's own IP/technology.
 
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You expect the American to admit "My smartphone cant compete with you outright so I need an excuse to eliminate you competition threat" ?

it’s not about competition it’s about Huawei doing a patent infringement which is against the law

Independent watch dog from the UK telecommunications industry found out that Huawei was gathering personal data from its users

You cannot practice communist behavior in a free fair world
 
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it’s not about competition it’s about Huawei doing a patent infringement which is against the law

Independent watch dog from the UK telecommunications industry found out that Huawei was gathering personal data from its users

You cannot practice communist behavior in a free fair world

UK are just pressure by Trump to ban Huawei with whatever reason.
 
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China on way to self reliance in 28-nm chips; to attain maturity in 14-mm category as well

April 30, 2021

China on way to self reliance in 28-nm chips; to attain maturity in 14-mm category as well

Globally semiconductor industry is going through an unprecedented challenge due to shortage of chips. The industry feels that the sanctions imposed by Trump administration on Chinese firms have contributed for this crisis. In China, major players have stepped up efforts to combat the current shortage by engaging in new production plans and expanding the existing ones. With the support from the government, the semiconductor industry in China is expected to attain self-reliance in popular technologies very soon.
The demand skyrockets amid supply challenges
Since the onset of COVID -19 epidemic, the industry witnessed a surge in demand for electronic devices like computers and smartphones, which became essential to meet the work- and study-related needs of individuals across the globe. The growth of 5G, in parallel to these developments, introduced a new wave of technologies and devices that demand high-end processors to deliver high performance with lower power consumption. The automotive sector also witnessed explosive growth, as public transport became difficult during the pandemic.

During 2020, global semiconductor industry sales grew by 6.5 percent to $439.0 billion, compared to the 2019 total of $412.3 billion. China remained the largest individual market for semiconductors, accounting for $151.7 billion sales in 2020, an increase of 5.0% Y-o-Y. China, which buys 40% share of the global semiconductor shipments, is now trying to cut down its reliance on imports.
SMIC leads Chinese chip manufacturing
SMIC, a key contributor to China’s domestic semiconductor industry and the world’s 5th largest producer of chips, said the sanctions by the Trump administration seriously affected the company’s business, as it could not procure technology from U.S. suppliers. The sanctions also impacted the industry at large as many firms started stock piling chips and other components fearing shortage.
Despite the restrictions, SMIC reported a record high of US$3.91 billion in revenues for the entire year in 2020, with nearly 17% growth YoY. The company shipped 1,415,788 wafers during the fourth quarter alone, a 5.7% jump from the corresponding period previous year.
SMIC focuses on chips from 350 nm node to advanced 14 nm. The aggressive manufacturing plans which SMIC has undertaken over the past couple of years, with support from the Chinese Government, have been pivotal in the success of the company. The US$2 billion investment, which SMIC procured from China National Integrated Circuit Industry Investment Fund and the Shanghai Integrated Circuit Industry Investment Fund last year, has been instrumental in this development.

SMIC, in cooperation with the Shenzhen government, recently announced plans to build a 28-nm factory in Shenzen. The project, with an estimated 2.35 billion U.S. dollars (15.3 billion yuan approximately) in investment, will have a monthly production capacity of about 40,000 12-inch wafers.
SMIC perceives that the massive production of 28-nm chips will, to an extent, address the current market demands, from both China and abroad. The 28-nm node and above fall in the mature category of chips, and market players believe the technology will find relevance at least for the next five years. In November last year, the China Semiconductor Industry Association had noted that China will become self sufficient in 28-nm process technology within two years and the mass production of 28-nm chips will be realized end of this year in China. This is crucial for the country’s self reliance on advanced chip technologies, and proves how the country is preparing to combat the unexpected challenges like the current sanctions.
China is also building momentum in the 14-nm and below category. In a major breakthrough, the Shanghai government announced the plans for “scaled production” of 12-nm semiconductors this year, as part of the government’s strategy to reduce reliance on foreign markets. Industry reports reveal that SMIC could be the choice of the project, considering the company’s capability in mass production of 14-nm and 12-nm. The 14-nm chip market in China is expected to mature by next year, considering the aggressive manufacturing initiatives by the largest semiconductor foundry in China.

The growth is also triggered by the rise in demand from Chinese companies, which largely relied on Taiwan Semiconductor Manufacturing Company (TSMC) before the U.S. sanctions.
The crisis has also pushed Chinese manufacturers to invest in futuristic technologies, especially the millimeter-wave 5G chips. In its new facility, SMIC is planning to produce the 7-nm chip, the latest advancement based on the N+1 process. Compared to SMIC’s 14nm process, N+1 promises 20% increase in performance and 57% reduction in power consumption, which is comparable with the competing products in the market, according to SMIC CEO Liang Mengsong. The process is ideal to build low-power applications like those in 5G. SMIC is set to run mass production of 7-nm chips later this year.
With this momentum expected to sustain in the future, the Chinese chip manufacturing industry looks highly prospective.
Rajani Baburajan

US only ban CN getting 7nm chips tech, so no surprise when CN can make even 10mn chips, even Intel chips factories in VN also can make the same

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Intel increases Vietnam chip investment by nearly 50%

Published On - January 27, 2021
TIM MACRO

Intel increases Vietnam chip investment by nearly 50%



U.S. chipmaker Intel injected $475 million into its Vietnam division, its biggest chip assembly and testing site globally, even as the company looks set to outsource more production and risks being eclipsed by the more advanced technology of rivals.
Intel Products Vietnam used the funds, a nearly 50% increase from previous investments, to manufacture 5G products and core processors, the company said Wednesday. The expansion was to help it “take on more complex technologies” and diversify beyond the central processing units at the heart of its business, Intel said.
 
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This is like saying that current US space and military technology derived from Chinese ancient rocket and gunpowder technology.

West may have initiated the semiconductor production technology, but what china currently use with her latest 28nm is China's own IP/technology.
Where gunpowder is used in space technology?
And space technology was also originally made by prisoner German scientists.
 
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