It's only revolutionary as a semi open design architecture. Manufacturing at the bleeding edge is what we struggle at. Microcontrollers can run whatever at whatever node size, and they'll still run your industrial equipment.
And one of the leading chip design ARM were designed by two scrappy brits. Without their breakthroughs it may have not been possible to have low power chips on handheld devices at all, as it was a sheer fluke that they discovered it was low power!
Extremely interesting video of the timeline and benefits of semiconductor manufacturing 👍👍👍 !!! My personal belief is that the current state of technology, the huge AI investment are extremely inefficient. It is soooo obvious to me that what is first needded is to scale-up the manufacturing of spintronics related technologies like Non-Volatile-Memory (NVM) MRAM : it is a key piece needed to enable really efficient (at least 1000x better effeciency) compare to current technologies (volatile DRAM,…) and with time, enable new paradigms…
I thought we were at the end of moore's law because chips are so small now that the laws of physics prevent chips from getting smaller and operating predictably
Well new paradigms could theoritically take over… My personal bet is on spintronics and ferroelectric related technologies… For example, Non-Volatile-Memory like SOT-MRAM (currently being investigated by European research center, IMEC) could theoritically be disruptive and enable new use cases…
Keep an eye out for dry photoresist technology from Lam Research which will take us down to sub NM sizes, we have not reached the limit yet (Mechanical Engineer on that project)
@@loganalexander3207I agree that there is still plenty of room for further technological improvements in silicon semiconductor technology, but I find it a bit pity that there isn’t yet more work done to enable the next paradigm : spintronics. It is like pursuing investments in LCD displays instead of emerging OLED displays… Non-Volatile-Memory (NVM) like the SOT-MRAM investigated by IMEC could be disruptive, and the manufacturing needs to be scaled-up. Spintronics could then piggy back on the MRAM manufacturing tools and expand the toolset from there…
Moores law is not a law of physics but rather an observation of improvement trends. Yes, we're getting close to the physical limit of transistors. But we can still do things like create faster application specific sub-sections of the chip. (ASIC). FPGA (software defined transistor layout). Vertically stacked transistors. Make the chip bigger. Remove redundant circuits like AVX 512. etc
Informative video, but the extra wide letterbox ratio on the video was a little annoying to watch. Would have been good to throw in some talk about how America is looking research more into chip production so its not so heavily reliant on TSMC (and other Taiwan based chip companies), so we don't have another shortage situation caused by world catastrophes, or in instance China does attempt taking control of Taiwan. I'm all for tech advancements and the growth has been so great from what I've experienced growing up in the 90s to now. I do feel the growth is hitting more of a plateau in recent years, when you look at general consumer electronics (computers, phones, etc). I have no problem with AI, but feel the tech industries are overusing it for things it doesn't need. This is a problem for consumers who dont want it, and an environmental problem for the energy and resource consumption. AI should help us innovate to more prosperity and unlocking things like medical/tech break throughs but we're just all here using it to be lazy or vanity for the most part. Additionally, I think even vehicles are being overloaded with electronics these days. My car is from 2018 and even though I'm comfortable with the level of electronics in it, sometimes I do think some of it is more than necessary. I cant imagine how much worse it could be in cars these days. I also feel more electronics mean more points of failure and that's the last thing I'd want for anyone when you're cruising down the highway at high speeds.
I still have and use a Samsung Note 5. That is 9 year old technology. There are 3 things wrong with it. The headphone jack doesn't work. The micro-USB port does not transfer data, and the version of Android is so old that some apps won't install. It is not because I need smaller, more advanced transistors. There is what I call NBAN technology. Nothing But A Number. Just because some measured performance is better does not mean that it is Effectively better. GDP needs planned obsolescence!
Your thinking is very small tbh. Do you really think smartphones are still the most bleeding edge use case for microchips? Get with the times unc. Robotics in particular will benefits greatly from further power reduction, heat reduction, and streamlined computational pipelines.
@zararianrock I never said smartphones were the most bleeding edge of chips. I still have my time wasted by ads on crap I don't want and will never buy. But my thinking is Big Enough to notice that Economists NEVER talk about the Depreciation of Automobiles and Smartphones. What is Net Domestic Product? Oops, economists can't do algebra because consumer depreciation is not in the equation. .
@@julientyt labor = yes but slaves that gets pay millions*... makes it hard to combine the 2 words together. (from Employee's bonus at stock purchase without counting the base salary)
Chips already become the necessity products because of extensive humans lives, don't manipulate the chips prices making humans lives harder and harder.
He put Kyrgyzstan and Tajikistan as part of China on the map. Politically, it's not entirely wrong. China basically owns them financially, but they are sovereign countries!
I worked so hard for three and half years to invest in my children's education, and not to make US or China richer. My family is first. You can fight or compete for decades but you have to clear up things with me as inventor.
He's a good guy with an interesting book, however, it's very shallow. I wish he wrote a scholarly book with sources and all of the usual nicities and had it published by a university, because while his conclusion is generally wrong, there's I'm sure there's a lot of value in the way he thought through the data.
I really enjoy Professor Miller's speeches. Very composed, knowledgeable and always factually based. But I don't think winnie (Xitler) would approve it. He doesn't like facts..smh. :(
Two words, "corporate greed". That made TSMC possible and the problem. In the 80's I was a semiconductor engineer working in Photo-lithography, the key to transistor size. A large part of Biden's negotiation to protect Taiwan hinged on them opening plants here in AZ using the same technology. Interestingly, the Taiwanese could not make these advanced chips without ASML headquartered in Veldhoven, the Netherlands. In this industry China will always be a joke! PS, I wrote this before watching the documentary!
Wtf r u talking about, no one interested in investing ASML back then except TSMC , and btw , no one country can make ASML machine also , its made from highest tech parts from different countries
Imagine a future where China shifts away from traditional silicon chips as we know them today. Traditional chips rely on silicon wafers, using transistors to represent binary values of "0s" and "1s." If China further its advances to quantum computing, they may soon achieve breakthroughs in materials and production techniques. They are already one of the leaders in quantum computing. At that point, chips could be developed to communicate using "quantum bits" or "qubits." Unlike classical bits, qubits can exist in multiple states simultaneously due to a property called superposition. This allows a qubit to represent both 0 and 1 at the same time, enabling quantum computers to perform complex calculations much faster than traditional computers. In summary, while traditional silicon chips operate on binary logic, quantum chips leverage the principles of quantum mechanics to represent and manipulate information in a fundamentally different way.
In short term is it worth to have better quatum computers than classical ones running crazy AIs like one with general intelligence, which can help breakthrough in everything?
So far they are not the natural successor to silicon transistor tech. That said, look how many times has that kind of opinion been proven short sighted?! Time will tell. For anyone not sure what you are talking about, here's an old video I just dug out from a few months ago. ua-cam.com/video/8ohh0cdgm_Y/v-deo.html
This national flag and/or national father, exclusive belong to Republic of China 中華民國, stolen by Taiwan independence politics groups (so called Taiwan country) which against Republic of China 中華民國 for many years.
@jolin1225 Taiwan independence top demons DPP Tsai Ing-wen (following u.s. politics and policies and u.s. aid)already destroyed Republic of China 中華民國,Don't keep FRAUD !
@@jolin1225 @jolin1225 Taiwan independence top demons DPP Tsai Ing-wen (following u.s. politics and policies and u.s. aid)already destroyed Republic of China 中華民國,Don't keep FRAUD !
So why can't Intel and Samsung produce advanced chips? China has spent hundreds of billions of dollars and still can't. Are China's 1.4 billion people all idiots? Since TSMC is not a Taiwanese company, why does TSMC pay taxes to the Taiwanese government? You are uneducated, as there is no logic in your statement.
Taiwan is not a country but is a province of China. Go read Taiwan's own Constitution. The amerikans happen to also agree with China that Taiwan is part of Chinese territory. You title already starts with a lie. Not subscribing.
that's unlikely to happen since neither Korea or America will agree to be the seller (1+1 = 2 won't apply here) The current CEO seem to lack idea on how to push forwards... if only Steven Jobs is still around.
Thank you for this video. It gives a good insight into the importance of chips in our everyday lives and the policy we are making.
Taiwan, remember it’s 🇹🇼
I read Chip War and this video is an amazing (well produced) companion to the book.
Dutch company is ASML. Creates EUV machines costing around $400 million.
We call TSMC as the mountain that protect our country.
That term originally refers to the Central Mountains, which often protect Taiwan from typhoons.
"RISC Architecture is gonna Change Everything"
It's only revolutionary as a semi open design architecture. Manufacturing at the bleeding edge is what we struggle at. Microcontrollers can run whatever at whatever node size, and they'll still run your industrial equipment.
@ it’s a quote from the movie hackers lol.
@@l-_-lForkBombl-_-l i thought you were referring to RiskV aka risk 5 architecture. oops
Hack the planet!!!
It's nothing revolutionary
It'll just make CPU ISA open source
And one of the leading chip design ARM were designed by two scrappy brits. Without their breakthroughs it may have not been possible to have low power chips on handheld devices at all, as it was a sheer fluke that they discovered it was low power!
Very true
Malaysia already quantum leap further than Taiwan.
Malaysia already quantum leap further than Taiwan.
@@CHRIS-ELID how??
@@danh5637it’s a troll
Extremely interesting video of the timeline and benefits of semiconductor manufacturing 👍👍👍 !!!
My personal belief is that the current state of technology, the huge AI investment are extremely inefficient.
It is soooo obvious to me that what is first needded is to scale-up the manufacturing of spintronics related technologies like Non-Volatile-Memory (NVM) MRAM : it is a key piece needed to enable really efficient (at least 1000x better effeciency) compare to current technologies (volatile DRAM,…) and with time, enable new paradigms…
What a video!!! Loved it.
the nuke is not just about the warhead, it's also about it's delivery system: its capabilities and its reliability.
So, its chips?
@georgepal9154 I guess it could be done without chips. However, it's not practical nowadays.
Ultrawide Aspect Ratio (21;9) !?!?!
Confused me too.
台灣是個海島移民國家,近四百年來受大清帝國,荷蘭,法國,西班牙,英國,美國,日本等各國文化衝擊洗禮才有今日多元樣態.
今日台灣的自由民主體制亦非一日可蹴,歷經帝制,殖民,黨國獨裁專制,戒嚴,228事件,白色恐怖,
民主演化進程也犧牲無數民主前輩血汗與生命換得.
自由民主台灣的特色: 多元多樣,混雜包容,以人為本.
1895年李鴻章在春帆樓上簽署馬關條約,將台灣『永遠』割讓給日本. 從畫押的那一刻起台灣和中國就毫無瓜葛了.
二戰之後,日本將台灣交給美國,國際法上台灣成了美國的託管國.這是目前台灣的現實狀況.
至於台灣未來,是要自立建國,或成為美國的一州,或由美國重新歸還日本,都和1949年才成立的中共毫不相干.
目前國際法上,台灣就是美國的託管國,地位宛如美國交給台灣人自治的特别州!
兩岸具體現實狀況 : 台灣中國,一邊一國,互不隸屬,中共敢侵犯台灣就是侵略!
1911中華民國Republic of China(R.O.C.)創立(在中國)
1949中華人民共和國People's Republic of China(P.R.C.)創立(在中國)
1949中華民國(中國)敗逃至台灣
1996中華民國(在台灣)沿用國號舉行直接民選總統李登輝
2000----2008中華民國(台灣)總統陳水扁
2008----2016中華民國(台灣)總統馬英九
2016----2024中華民國(台灣)總統蔡英文
2024----2028中華民國(台灣)總統賴清德
1945二戰後台灣已是獨立政治實體國家,至於"中華民國"國號爭議,
在自由民主體制下須經正名修憲或制憲程序方能消彌.
1949--2000中國國民黨屬反共政黨,2000以後中國國民黨由親中轉媚共,舔共跪匪,仇台恨台政黨!
曹興誠:台灣從來就不是中國領土 11:17 ua-cam.com/video/fQTBnpsMrSg/v-deo.htmlsi=pdfqV-A1JY7eKTg1
臺灣人是炎黃子孫嗎?|與李文成對談【知定講堂 曹興誠】EP38
ua-cam.com/video/CjRm5QO1ZVQ/v-deo.htmlsi=oQgSVFC0UJ3Sjrrv
統一必殺戮,和平是欺騙!|與李文成對談【知定講堂 曹興誠】EP39
ua-cam.com/video/x8XBnHgEj7M/v-deo.htmlsi=cLI53XqJVBdeDrU_
「在國際研討會上,揭發國、共破壞國際法」【知定講堂 曹興誠】EP51
ua-cam.com/video/THsRzmRVEt4/v-deo.htmlsi=h-xnGn9t0mcf9SWy
獨家 ∕ 中國摘活眼角膜不打麻藥 前中國軍醫手術後放棄工作:太殘酷
ua-cam.com/video/GtddhqdC-4s/v-deo.htmlsi=aa0F6rHsinwfka4B
【寶島觀世界】「零日攻擊」讓台灣人長躲避的問題,一起來思考! │主持人:矢板明夫 │2024/07/28
ua-cam.com/video/Y4kNLLvV674/v-deo.htmlsi=ajjOqaA63i6tDPL5
美國日前曾就聯合國2758號公報詮釋中共建立的"中華人民共和國"取代"中華民國"在安理會席次問題,與台灣人民無關.
1949--1996是中國國民黨以黨國專政獨裁形式統治台灣,所以美國務卿今年在賴總統就職賀詞才稱第五位台灣總統!
可知美國重視與認定的是具有真正代表台灣民意選出的總統!
The Crucial Years: 1945-1949 2024.08.31 | Taiwan History 台灣演義
ua-cam.com/video/Voc3TANkGMY/v-deo.htmlsi=nPO_cOaTaUfH1M6y
等着被屠吧😂
@@kevinivo-el5eh 等十几億顆韭菜先被屠完?
@@kevinivo-el5eh呵呵呵~
@@kevinivo-el5eh屠殺😂你先保佑自己及家人吧
I thought we were at the end of moore's law because chips are so small now that the laws of physics prevent chips from getting smaller and operating predictably
Well new paradigms could theoritically take over…
My personal bet is on spintronics and ferroelectric related technologies…
For example, Non-Volatile-Memory like SOT-MRAM (currently being investigated by European research center, IMEC) could theoritically be disruptive and enable new use cases…
Keep an eye out for dry photoresist technology from Lam Research which will take us down to sub NM sizes, we have not reached the limit yet (Mechanical Engineer on that project)
@@loganalexander3207I agree that there is still plenty of room for further technological improvements in silicon semiconductor technology, but I find it a bit pity that there isn’t yet more work done to enable the next paradigm : spintronics. It is like pursuing investments in LCD displays instead of emerging OLED displays…
Non-Volatile-Memory (NVM) like the SOT-MRAM investigated by IMEC could be disruptive, and the manufacturing needs to be scaled-up. Spintronics could then piggy back on the MRAM manufacturing tools and expand the toolset from there…
Moores law is not a law of physics but rather an observation of improvement trends. Yes, we're getting close to the physical limit of transistors.
But we can still do things like create faster application specific sub-sections of the chip. (ASIC). FPGA (software defined transistor layout). Vertically stacked transistors. Make the chip bigger. Remove redundant circuits like AVX 512. etc
So u meant to say tribulation is coming... That's great to hear
Good video!
任何一種讓世界進步的東西在中國的手中後,就會變成是毀滅世界的東西
举个例子?
@@ray24li90比如说晶片。中国盗取世界上任何技术,然后呢?懂的都懂。
@@ray24li90How many enemies you have surrender your country😂😂😂
@@ray24li90 某種病毒,從sars改良的變種病毒~
2:22 Computer had to be deBUG... never though it literally meant De-Bugged until now. 🤣
Informative video, but the extra wide letterbox ratio on the video was a little annoying to watch.
Would have been good to throw in some talk about how America is looking research more into chip production so its not so heavily reliant on TSMC (and other Taiwan based chip companies), so we don't have another shortage situation caused by world catastrophes, or in instance China does attempt taking control of Taiwan.
I'm all for tech advancements and the growth has been so great from what I've experienced growing up in the 90s to now. I do feel the growth is hitting more of a plateau in recent years, when you look at general consumer electronics (computers, phones, etc). I have no problem with AI, but feel the tech industries are overusing it for things it doesn't need. This is a problem for consumers who dont want it, and an environmental problem for the energy and resource consumption. AI should help us innovate to more prosperity and unlocking things like medical/tech break throughs but we're just all here using it to be lazy or vanity for the most part.
Additionally, I think even vehicles are being overloaded with electronics these days. My car is from 2018 and even though I'm comfortable with the level of electronics in it, sometimes I do think some of it is more than necessary. I cant imagine how much worse it could be in cars these days. I also feel more electronics mean more points of failure and that's the last thing I'd want for anyone when you're cruising down the highway at high speeds.
you forgot AMD and of course NVIDIA! Intel is almost obsolete nowdays!
I still have and use a Samsung Note 5. That is 9 year old technology. There are 3 things wrong with it. The headphone jack doesn't work. The micro-USB port does not transfer data, and the version of Android is so old that some apps won't install. It is not because I need smaller, more advanced transistors.
There is what I call NBAN technology. Nothing But A Number. Just because some measured performance is better does not mean that it is Effectively better.
GDP needs planned obsolescence!
Your thinking is very small tbh. Do you really think smartphones are still the most bleeding edge use case for microchips? Get with the times unc.
Robotics in particular will benefits greatly from further power reduction, heat reduction, and streamlined computational pipelines.
@zararianrock
I never said smartphones were the most bleeding edge of chips. I still have my time wasted by ads on crap I don't want and will never buy.
But my thinking is Big Enough to notice that Economists NEVER talk about the Depreciation of Automobiles and Smartphones. What is Net Domestic Product? Oops, economists can't do algebra because consumer depreciation is not in the equation.
.
I love these videos
me too
He who controls the chips, controls the universe.
Malaysia already quantum leap further than Taiwan.
@@CHRIS-ELID Togo already super quantum leap further than Malasia.
😂😂😂.@@danielshandley
@@CHRIS-ELID malaysia, leap what? solat?
@@yongyon15 Potato chips
12:23 Why are Tajikistan and Kyrgyzstan part of China 😭
Came here for that i never heard about the invasion!!
Ditto +1 (unless Beijing also claim it belongs to China since ancient times from some map or ancestry)
10:07 That looks so dystopian
"Chips made almost free", but at what costs?
slave labor
low-end chip making is very cheap
@@julientyt labor = yes but slaves that gets pay millions*... makes it hard to combine the 2 words together.
(from Employee's bonus at stock purchase without counting the base salary)
Oh ! that's where the word debugging comes from ....
Chips already become the necessity products because of extensive humans lives, don't manipulate the chips prices making humans lives harder and harder.
impressive
nice ...work
for mass production yes in taiwan, but for limited one not so.
Morris Chang has dual citizenship. Calling him "American Engineer" is insecure and weak.
informative af
12:22 someone smarter than me tell me what’s wrong with this map, specifically in Central Asia.
Malaysia already quantum leap further than Taiwan.
@@CHRIS-ELID Togo already super quantum leap further than Malasia.
He put Kyrgyzstan and Tajikistan as part of China on the map. Politically, it's not entirely wrong. China basically owns them financially, but they are sovereign countries!
Chat, was the CHIPS Act a win for the Biden Harris admin and good for the US? Looking for opinions here ty.
Who's going to make the dip for all these chips?
good PPT --eetimes level
6:00 transistors are now down to 2nm.
it's almost unbelievable that they can do such things!
no they are not! That's the name of the node as a performance measure pegged to the 1990ties.
Transistors are around 50nm
I worked so hard for three and half years to invest in my children's education, and not to make US or China richer.
My family is first.
You can fight or compete for decades but you have to clear up things with me as inventor.
A valuable video even today🔴
Malaysia already quantum leap further than Taiwan.
@@CHRIS-ELID Togo already super quantum leap further than Malasia.
He's a good guy with an interesting book, however, it's very shallow. I wish he wrote a scholarly book with sources and all of the usual nicities and had it published by a university, because while his conclusion is generally wrong, there's I'm sure there's a lot of value in the way he thought through the data.
I really enjoy Professor Miller's speeches. Very composed, knowledgeable and always factually based. But I don't think winnie (Xitler) would approve it. He doesn't like facts..smh. :(
Taiwan NO. 1🎉
Chinese people will unlike your title as you name Taiwan as a country. Anyway you are right.
just remember, if something goes wrong btwn China + Taiwan, its the US that will spur it on and benefit from it
Malaysia already quantum leap further than Taiwan lol
Posted from Moscow
"i dont agree with you! you must be [insert foreign country] bot" ☝🤓
Fact
.
12:23 Let's not even talk about that stupid map of China.
Infinity more important than new oil projects.
Two words, "corporate greed". That made TSMC possible and the problem. In the 80's I was a semiconductor engineer working in Photo-lithography, the key to transistor size. A large part of Biden's negotiation to protect Taiwan hinged on them opening plants here in AZ using the same technology. Interestingly, the Taiwanese could not make these advanced chips without ASML headquartered in Veldhoven, the Netherlands. In this industry China will always be a joke! PS, I wrote this before watching the documentary!
TSMC wisely invested and inspired ASML to make lithography machines.
Wtf r u talking about, no one interested in investing ASML back then except TSMC , and btw , no one country can make ASML machine also , its made from highest tech parts from different countries
@@brucehehehe I'm a retired semiconductor engineer, What are you?
@@Sva10 I was a photolithography and etch engineer.
@airplayn we doing water system for TSMC , Sup u retired employee
I want to open a Chip manufacturing company in my hometown. Anyone interested to invest ?
Which Country Want AI = t AI Wan
Nahhh people who get the video in their recommendations are Taiwanese :(
the small height is cool in the video, is this a new trend i'm not aware of?
Sunlight with correctly applied is the time control due to butterfly effect
What kinf wierd video was this?
👍
High frequency can alter entire universe because time and space and ether
That red flag is China flag, the Republuc of China (ROC), and its originally mainland China. However, Taiwan does not have yet a national flag.
Imagine a future where China shifts away from traditional silicon chips as we know them today. Traditional chips rely on silicon wafers, using transistors to represent binary values of "0s" and "1s." If China further its advances to quantum computing, they may soon achieve breakthroughs in materials and production techniques. They are already one of the leaders in quantum computing.
At that point, chips could be developed to communicate using "quantum bits" or "qubits." Unlike classical bits, qubits can exist in multiple states simultaneously due to a property called superposition. This allows a qubit to represent both 0 and 1 at the same time, enabling quantum computers to perform complex calculations much faster than traditional computers.
In summary, while traditional silicon chips operate on binary logic, quantum chips leverage the principles of quantum mechanics to represent and manipulate information in a fundamentally different way.
In short term is it worth to have better quatum computers than classical ones running crazy AIs like one with general intelligence, which can help breakthrough in everything?
The real race is with photonic (light) based circuitry and China is geared to lead the way in that.
So far they are not the natural successor to silicon transistor tech. That said, look how many times has that kind of opinion been proven short sighted?! Time will tell. For anyone not sure what you are talking about, here's an old video I just dug out from a few months ago.
ua-cam.com/video/8ohh0cdgm_Y/v-deo.html
Malaysia already quantum leap further than Taiwan.
@@CHRIS-ELID Togo already super quantum leap further than Malasia.
The world still run, no need usa and taiwan
This guy doesn't even know basic geography.
Chips shouldn't be made in taiwan.
Transistors weren't around until 1999. Chips were made just as soon as the transistor. I know because I made both.
He talks about giving away the intellectual property because he doesn't have any of it.
All the companies he mentioned that rely on tsmc are companies I worked hard for and didn't receive anything for.
where should they be made? your house? lmao
This national flag and/or national father, exclusive belong to Republic of China 中華民國, stolen by Taiwan independence politics groups (so called Taiwan country) which against Republic of China 中華民國 for many years.
Taiwan independence polities protect it not to be destroyed by China and hold it perfectly.
@jolin1225 Taiwan independence top demons DPP Tsai Ing-wen (following u.s. politics and policies and u.s. aid)already destroyed Republic of China 中華民國,Don't keep FRAUD !
@@jolin1225 @jolin1225 Taiwan independence top demons DPP Tsai Ing-wen (following u.s. politics and policies and u.s. aid)already destroyed Republic of China 中華民國,Don't keep FRAUD !
Guess we will all be using chinese chips in the near future. Lets build a chip fab in Texas lol....
Our phones would be a few thousand dollars more expensive lol
TSMC should expand to Thailand.
show your money~~~😃
How can you call Taiwan as a country? 😂😂😂
Taiwan is independent country.not like China loser
Taiwan? My arse. Taiwan has very few of the core technologies it needs to sustain its semiconductor industry. TSMC is close to 80% foreign-owned.
So why can't Intel and Samsung produce advanced chips? China has spent hundreds of billions of dollars and still can't. Are China's 1.4 billion people all idiots?
Since TSMC is not a Taiwanese company, why does TSMC pay taxes to the Taiwanese government?
You are uneducated, as there is no logic in your statement.
lol you're delusional
Taiwan is not a country but is a province of China. Go read Taiwan's own Constitution. The amerikans happen to also agree with China that Taiwan is part of Chinese territory. You title already starts with a lie. Not subscribing.
Why can't the Chinese enter Taiwanese territory? This explains everything.
What you see in your dreams is all illusion.
Taiwan (ROC) is an independent country and never belongs to the PRC
what is this Taiwan your speaking of don't you mean Chinese Taipei
Malaysia already quantum leap further than Taiwan.
@@CHRIS-ELID Togo already super quantum leap further than Malasia.
China is not a sovereign country as it wont honour it's bonds.
.
Taiwan is not an independent country. Please correct the title of this video.
bs
@@genuinennessbefitting4734 Back up UR bs with evidence.
Taiwan is a country!
@@jym5604 Back up your claim with evidence. Taiwan is a part of a country, China.
Taiwan (ROC) is an independent country and never belongs to the PRC
First of all, Taiwan is not a country 😂
bs
Bs
Taiwan (ROC) is an independent country and never belongs to the PRC
I think Intel should to sell or merge to Samsung semiconductor bc this is the best way to combat and win from tsmc once forever!
that's unlikely to happen since neither Korea or America will agree to be the seller (1+1 = 2 won't apply here)
The current CEO seem to lack idea on how to push forwards... if only Steven Jobs is still around.