China Builds Its First EUV Machine: A Revolution in Advanced Technology"
ฝัง
- เผยแพร่เมื่อ 4 ต.ค. 2024
- In this video, we dive into China’s groundbreaking achievement of developing its first Extreme Ultraviolet Lithography (EUV) machine, a key technology in the production of advanced semiconductors. EUV technology, previously monopolized by a single company, is now a field where China is making strides to reduce its reliance on foreign tech and strengthen its global standing in the semiconductor industry. Discover how this breakthrough could change the future of technology and global trade. Watch now to learn more about the intricacies of EUV technology and its impact on the tech world!
#ChinaTechnology
#EUV
#Semiconductors
#ChipManufacturing
#AdvancedTechnology
#TechBreakthrough
#ChinaInnovation
#TechRevolution
#FutureOfTechnology
#GlobalTechCompetition
#ChipProduction
#TechNews
#ArtificialIntelligence
#TechUpdates
#GlobalTrade
Well done China 🇨🇳
It is a matter of time China will be able to produce an EUV machines as good as the ASML one. All sanctions against China have failed : tunnelling machine, cranes, GPS, space station, high speed trains. All complex machines take time to be perfected. China has many talented technicians and engineers to do the job.
Wow 🤩 China ❤🇨🇳👍
I am so happy if this is true. Well done, China!
中国🇨🇳👍🇨🇳👍🇨🇳👍🇨🇳👍🇨🇳👍
Yes, due money is transferring to engeneering and improving tech for a better world and off course more money. Not for bombing and destruction … and more money for one group.
Amazing accomplishment by China. Now let's see what China can do with it. No mention of who in China developed this EUV, but SMIC could sure use it. (Huawei probably was involved, if not the principle architect and implementer) If so and they can get this machine into production, the US has failed big time in preventing China from producing high end chips. and this is for sure going to give Raimondo a heart attack. And.....maybe now ASML has a competitor. Knowing the Chinese, it will have a lower price point and one of its first customers will probably be the Russians. SMIC has a reasonable faculty of ex TSMC employees, including Liang Mong Song, of TSMC fame, so they should be up and running fast.
It's bigger than usa failing to prevent them lol, it's like they pushed them to do it in the first place,take away their choices and they will just make their own alternative.
Asia is on rise!!!
For mid to long term, China is focusing on other newer technology as there are limitations on the current technology.
Wait till China unleash much more cheaper affordable chips which will change the overall chips and semiconductors landscape. It is coming soon.
China definitely will be able to produce the same quality as the Dutch and I am pretty sure that they soon will surpass the Dutch in every aspect, all BRICS countries will benefit and the G7 will further fall short on all levels.
China is goin for 7 nm or 5 nm chips. No point goin to 0 nm. Effort is put to new breakthrough tech.
❤Congratulations .well done China.
Really? No one is to blame you if this cannot be done now....if this is possible in 2 to 3 years it is already a wonderful achievement...waiting to pop champagne which I have kept for 8 years
This is nice❤
Redmi Turbo 3 already have installed their very own 4nm chips already
This is a DUV machine they haven't built the EUV.....yet😮 they eventually will though
The moore's law is reaching its limitation. Having only ASML has the ability to manufacture EUV is a clear sign these technological advancement along this line of though is coming to an end. Instead of trying to come out with a rounder wheel, China is strategically looking at the other aspect of chips making that has tremendous room for innovation. The focus on packaging as the new direction for innovation explains why China has moved beyond the western mindset of innovation. In the end it the consumer products and not the components that matters.
Bad no deep facts look like a small news and created a documentary out using AI
Mehdi you are ma hero ❤❤❤
Haven't heard any confirmation about this euv machine.
You don't. The only way this can be confirmed is after an end product (e.g. a new Huawei phone) is released and be reverse engineered.
They have one that can do 28 nm only. Which is what most electronic devices use outside of cellphone video games and super computers.
@@eman67rp
We already know China has a homegrown machine we are probably talking how advanced the chips are that these machines make
China has managed to make a homegrown Lithography machine albeit one that creates legacy type/level 28nm chips
Where they are using their proprietary layering/patterning technique to get down to that 7nm/5nm
So yes one could argue they are behind from a sanctioning standpoint But from an all out war standpoint where a Country has been cut off from inputs from other countries?
I look at it as a China is ahead Because really that is the worst case scenario the USA/West is envisioning.
As that being the reason they have sanctioned/cut off China right now
That’s the biased criteria we put on China they need to be making that 100% homemade semiconductor chip From that 100% homemade lithography machine right down to the screws and Rare Earths required to make the lithography machines in the first place
Where the Dutch company ASML sources 85% of what goes into making their lithography machines from around the world. As ASML cuts off China from its technology/patents
But then no one thought to go back even further.
Forgetting about the fact 85% of the components are sourced from other places/countries
They should have been asking what goes into making those components or the patents on what goes into that component in the first place?
Because the Chinese dominate the mining and refining of the most basic minerals that go into making those components/equipment
Like Lithium, Cobalt, Rare Earths etc
Americans are just lucky they don’t think zero-sum game type of ways like America does
They could have easily crashed the American economy… it would have hurt the Chinese but it would have hurt America more
But they don’t think that zero-sum game ways until they are forced to…
👇
Applications in Semiconductor Manufacturing
Lasers and Lithography
Lasers are indispensable in semiconductor manufacturing, especially in advanced lithography. REEs like neodymium are used in Nd:YAG lasers, which are critical for UV light generation in lithography processes.
Laser Cleaning
As semiconductor components shrink, traditional cleaning methods become less effective. Lasers, particularly those using REEs, offer a solution by dislodging particles adhered to wafers through Van Der Waal forces.
Magnets and Plasma Material Processing
Permanent magnets, often made from REEs like neodymium, are used in plasma material processing systems. These systems are essential for thin film growth and patterning.
Coatings and Abrasives
REEs like yttrium oxide are used for coatings in plasma etch chambers, reducing maintenance costs. Cerium dioxide abrasives are used in the Chemical Mechanical Polishing (CMP) process to achieve extremely flat wafer surfaces.
The Impact on Adjacent Technologies
Optoelectronics and LEDs
REEs like cerium and yttrium are vital for the production of white LEDs. These LEDs are increasingly used in various applications, from displays to therapeutics.
Silicon Photonics
In the emerging field of silicon photonics, REEs like erbium are being studied for their potential to enable silicon to emit light, thus making monolithic silicon photonics chips a possibility.
Amr Elgarony
👇
China’s war chest of rare earth patents give an insight into total domination of the industry
Published: 3:00am, 20 Jul, 2019
China had filed for 25,911 rare earth patents compared to 9,810 from the US as of October last year
China has been investing heavily on facilities to do the bulk of the dirty and environmentally damaging mining and ore processing work for the world, systematically turning its know-how and methodologies into patents that could give it a competitive edge against its rivals.
SCMP
Why is the video quality so shit?
One moment I thought I use my eyes too much I'm almost blind. lol
Zhende Jiade? Jiade jiade!
American Dream😂
Is this for real or just wishful thinking? Any supporting links? Who makes it? Sounds like all generalities mentioned here.
China EUV machine's technology is still way behind ASML machine. Chinese machines are expected to produce chips with manufacturing process of between 50-100 nM. Still, there are only a handful of countries that are able to produce EUV machines to that end. The chinese EUV machines might able to meet demands of PLA if the war brokes out and creates some form of resilient in chip making.
I think is 17 or 25
Everyone has to start somewhere.
wow! another tech expert in YT!
💯💯💯👍👍👍
Extraordinary good news, but can we really trust it?
Just a couple of weeks before the Chinese technology reach the 70nm chips size and now SMIC could reach 7nmv?
Look suspicious to me despite the fact that it could be such a great new!
We already know China has a homegrown machine we are probably talking how advanced the chips are that these machines make
China has managed to make a homegrown Lithography machine albeit one that creates legacy type/level 28nm chips
Where they are using their proprietary layering/patterning technique to get down to that 7nm/5nm
So yes one could argue they are behind from a sanctioning standpoint But from an all out war standpoint where a Country has been cut off from inputs from other countries?
I look at it as a China is ahead Because really that is the worst case scenario the USA/West is envisioning.
As that being the reason they have sanctioned/cut off China right now
That’s the biased criteria we put on China they need to be making that 100% homemade semiconductor chip From that 100% homemade lithography machine right down to the screws and Rare Earths required to make the lithography machines in the first place
Where the Dutch company ASML sources 85% of what goes into making their lithography machines from around the world. As ASML cuts off China from its technology/patents
But then no one thought to go back even further.
Forgetting about the fact 85% of the components are sourced from other places/countries
They should have been asking what goes into making those components or the patents on what goes into that component in the first place?
Because the Chinese dominate the mining and refining of the most basic minerals that go into making those components/equipment
Like Lithium, Cobalt, Rare Earths etc
Americans are just lucky they don’t think zero-sum game type of ways like America does
They could have easily crashed the American economy… it would have hurt the Chinese but it would have hurt America more
But they don’t think that zero-sum game ways until they are forced to…
👇
Applications in Semiconductor Manufacturing
Lasers and Lithography
Lasers are indispensable in semiconductor manufacturing, especially in advanced lithography. REEs like neodymium are used in Nd:YAG lasers, which are critical for UV light generation in lithography processes.
Laser Cleaning
As semiconductor components shrink, traditional cleaning methods become less effective. Lasers, particularly those using REEs, offer a solution by dislodging particles adhered to wafers through Van Der Waal forces.
Magnets and Plasma Material Processing
Permanent magnets, often made from REEs like neodymium, are used in plasma material processing systems. These systems are essential for thin film growth and patterning.
Coatings and Abrasives
REEs like yttrium oxide are used for coatings in plasma etch chambers, reducing maintenance costs. Cerium dioxide abrasives are used in the Chemical Mechanical Polishing (CMP) process to achieve extremely flat wafer surfaces.
The Impact on Adjacent Technologies
Optoelectronics and LEDs
REEs like cerium and yttrium are vital for the production of white LEDs. These LEDs are increasingly used in various applications, from displays to therapeutics.
Silicon Photonics
In the emerging field of silicon photonics, REEs like erbium are being studied for their potential to enable silicon to emit light, thus making monolithic silicon photonics chips a possibility.
Amr Elgarony
👇
China’s war chest of rare earth patents give an insight into total domination of the industry
Published: 3:00am, 20 Jul, 2019
China had filed for 25,911 rare earth patents compared to 9,810 from the US as of October last year
China has been investing heavily on facilities to do the bulk of the dirty and environmentally damaging mining and ore processing work for the world, systematically turning its know-how and methodologies into patents that could give it a competitive edge against its rivals.
SCMP
13 nm
pain
Fake fake fake.
Lies lies lies. Clickbaiting.
We already know China has a homegrown machine we are probably talking how advanced the chips are that these machines make
China has managed to make a homegrown Lithography machine albeit one that creates legacy type/level 28nm chips
Where they are using their proprietary layering/patterning technique to get down to that 7nm/5nm
So yes one could argue they are behind from a sanctioning standpoint But from an all out war standpoint where a Country has been cut off from inputs from other countries?
I look at it as a China is ahead Because really that is the worst case scenario the USA/West is envisioning.
As that being the reason they have sanctioned/cut off China right now
That’s the biased criteria we put on China they need to be making that 100% homemade semiconductor chip From that 100% homemade lithography machine right down to the screws and Rare Earths required to make the lithography machines in the first place
Where the Dutch company ASML sources 85% of what goes into making their lithography machines from around the world. As ASML cuts off China from its technology/patents
But then no one thought to go back even further.
Forgetting about the fact 85% of the components are sourced from other places/countries
They should have been asking what goes into making those components or the patents on what goes into that component in the first place?
Because the Chinese dominate the mining and refining of the most basic minerals that go into making those components/equipment
Like Lithium, Cobalt, Rare Earths etc
Americans are just lucky they don’t think zero-sum game type of ways like America does
They could have easily crashed the American economy… it would have hurt the Chinese but it would have hurt America more
But they don’t think that zero-sum game ways until they are forced to…
👇
Applications in Semiconductor Manufacturing
Lasers and Lithography
Lasers are indispensable in semiconductor manufacturing, especially in advanced lithography. REEs like neodymium are used in Nd:YAG lasers, which are critical for UV light generation in lithography processes.
Laser Cleaning
As semiconductor components shrink, traditional cleaning methods become less effective. Lasers, particularly those using REEs, offer a solution by dislodging particles adhered to wafers through Van Der Waal forces.
Magnets and Plasma Material Processing
Permanent magnets, often made from REEs like neodymium, are used in plasma material processing systems. These systems are essential for thin film growth and patterning.
Coatings and Abrasives
REEs like yttrium oxide are used for coatings in plasma etch chambers, reducing maintenance costs. Cerium dioxide abrasives are used in the Chemical Mechanical Polishing (CMP) process to achieve extremely flat wafer surfaces.
The Impact on Adjacent Technologies
Optoelectronics and LEDs
REEs like cerium and yttrium are vital for the production of white LEDs. These LEDs are increasingly used in various applications, from displays to therapeutics.
Silicon Photonics
In the emerging field of silicon photonics, REEs like erbium are being studied for their potential to enable silicon to emit light, thus making monolithic silicon photonics chips a possibility.
Amr Elgarony
👇
China’s war chest of rare earth patents give an insight into total domination of the industry
Published: 3:00am, 20 Jul, 2019
China had filed for 25,911 rare earth patents compared to 9,810 from the US as of October last year
China has been investing heavily on facilities to do the bulk of the dirty and environmentally damaging mining and ore processing work for the world, systematically turning its know-how and methodologies into patents that could give it a competitive edge against its rivals.
SCMP
Such pathetic propaganda. LOL!
We already know China has a homegrown machine we are probably talking how advanced the chips are that these machines make
China has managed to make a homegrown Lithography machine albeit one that creates legacy type/level 28nm chips
Where they are using their proprietary layering/patterning technique to get down to that 7nm/5nm
So yes one could argue they are behind from a sanctioning standpoint But from an all out war standpoint where a Country has been cut off from inputs from other countries?
I look at it as a China is ahead Because really that is the worst case scenario the USA/West is envisioning.
As that being the reason they have sanctioned/cut off China right now
That’s the biased criteria we put on China they need to be making that 100% homemade semiconductor chip From that 100% homemade lithography machine right down to the screws and Rare Earths required to make the lithography machines in the first place
Where the Dutch company ASML sources 85% of what goes into making their lithography machines from around the world. As ASML cuts off China from its technology/patents
But then no one thought to go back even further.
Forgetting about the fact 85% of the components are sourced from other places/countries
They should have been asking what goes into making those components or the patents on what goes into that component in the first place?
Because the Chinese dominate the mining and refining of the most basic minerals that go into making those components/equipment
Like Lithium, Cobalt, Rare Earths etc
Americans are just lucky they don’t think zero-sum game type of ways like America does
They could have easily crashed the American economy… it would have hurt the Chinese but it would have hurt America more
But they don’t think that zero-sum game ways until they are forced to…
👇
Applications in Semiconductor Manufacturing
Lasers and Lithography
Lasers are indispensable in semiconductor manufacturing, especially in advanced lithography. REEs like neodymium are used in Nd:YAG lasers, which are critical for UV light generation in lithography processes.
Laser Cleaning
As semiconductor components shrink, traditional cleaning methods become less effective. Lasers, particularly those using REEs, offer a solution by dislodging particles adhered to wafers through Van Der Waal forces.
Magnets and Plasma Material Processing
Permanent magnets, often made from REEs like neodymium, are used in plasma material processing systems. These systems are essential for thin film growth and patterning.
Coatings and Abrasives
REEs like yttrium oxide are used for coatings in plasma etch chambers, reducing maintenance costs. Cerium dioxide abrasives are used in the Chemical Mechanical Polishing (CMP) process to achieve extremely flat wafer surfaces.
The Impact on Adjacent Technologies
Optoelectronics and LEDs
REEs like cerium and yttrium are vital for the production of white LEDs. These LEDs are increasingly used in various applications, from displays to therapeutics.
Silicon Photonics
In the emerging field of silicon photonics, REEs like erbium are being studied for their potential to enable silicon to emit light, thus making monolithic silicon photonics chips a possibility.
Amr Elgarony
👇
China’s war chest of rare earth patents give an insight into total domination of the industry
Published: 3:00am, 20 Jul, 2019
China had filed for 25,911 rare earth patents compared to 9,810 from the US as of October last year
China has been investing heavily on facilities to do the bulk of the dirty and environmentally damaging mining and ore processing work for the world, systematically turning its know-how and methodologies into patents that could give it a competitive edge against its rivals.
SCMP
Fake news
Should i give you a cup or a glass to shade in your tears?
Sore loser.
We already know China has a homegrown machine we are probably talking how advanced the chips are that these machines make
China has managed to make a homegrown Lithography machine albeit one that creates legacy type/level 28nm chips
Where they are using their proprietary layering/patterning technique to get down to that 7nm/5nm
So yes one could argue they are behind from a sanctioning standpoint But from an all out war standpoint where a Country has been cut off from inputs from other countries?
I look at it as a China is ahead Because really that is the worst case scenario the USA/West is envisioning.
As that being the reason they have sanctioned/cut off China right now
That’s the biased criteria we put on China they need to be making that 100% homemade semiconductor chip From that 100% homemade lithography machine right down to the screws and Rare Earths required to make the lithography machines in the first place
Where the Dutch company ASML sources 85% of what goes into making their lithography machines from around the world. As ASML cuts off China from its technology/patents
But then no one thought to go back even further.
Forgetting about the fact 85% of the components are sourced from other places/countries
They should have been asking what goes into making those components or the patents on what goes into that component in the first place?
Because the Chinese dominate the mining and refining of the most basic minerals that go into making those components/equipment
Like Lithium, Cobalt, Rare Earths etc
Americans are just lucky they don’t think zero-sum game type of ways like America does
They could have easily crashed the American economy… it would have hurt the Chinese but it would have hurt America more
But they don’t think that zero-sum game ways until they are forced to…
👇
Applications in Semiconductor Manufacturing
Lasers and Lithography
Lasers are indispensable in semiconductor manufacturing, especially in advanced lithography. REEs like neodymium are used in Nd:YAG lasers, which are critical for UV light generation in lithography processes.
Laser Cleaning
As semiconductor components shrink, traditional cleaning methods become less effective. Lasers, particularly those using REEs, offer a solution by dislodging particles adhered to wafers through Van Der Waal forces.
Magnets and Plasma Material Processing
Permanent magnets, often made from REEs like neodymium, are used in plasma material processing systems. These systems are essential for thin film growth and patterning.
Coatings and Abrasives
REEs like yttrium oxide are used for coatings in plasma etch chambers, reducing maintenance costs. Cerium dioxide abrasives are used in the Chemical Mechanical Polishing (CMP) process to achieve extremely flat wafer surfaces.
The Impact on Adjacent Technologies
Optoelectronics and LEDs
REEs like cerium and yttrium are vital for the production of white LEDs. These LEDs are increasingly used in various applications, from displays to therapeutics.
Silicon Photonics
In the emerging field of silicon photonics, REEs like erbium are being studied for their potential to enable silicon to emit light, thus making monolithic silicon photonics chips a possibility.
Amr Elgarony
👇
China’s war chest of rare earth patents give an insight into total domination of the industry
Published: 3:00am, 20 Jul, 2019
China had filed for 25,911 rare earth patents compared to 9,810 from the US as of October last year
China has been investing heavily on facilities to do the bulk of the dirty and environmentally damaging mining and ore processing work for the world, systematically turning its know-how and methodologies into patents that could give it a competitive edge against its rivals.
SCMP