Company that solves hard problems in key industry gets high profit margins, news at 11.
The longer I've worked in tech, the more it becomes obvious why traditional business school approaches do not work in innovative fields. Between 2000 and 2016 Semi firms focused on outsourcing the expensive and high risk portion of their product to firms like TSMC, starting around 2016 a lot of companies looked at the risks and costs of further node shrinks in what they believed was a commodity business - shrugged their shoulders and decided they wouldn't chase after it.
In 2022, TSMC is effectively the only game in town for the latest generation of chips - and isn't letting up. Anyone who wants to "catch-up" is now stuck with the daunting prospect of spending ~100 billion dollars to re-create a commodity business.
>Company that solves hard problems in key industry gets high profit margins, news at 11.
And yet this has to be repeated time and time again on HN. It is actually quite tiring. People used to look at Intel spending $10B in CapEx and felt the number is unsustainable. ( Part of the reason why Intel lost ), while TSMC is on track to spend ~$50B in 2023.
In the sci-fi novel Dune there is the Space Guild that became so advanced with shipbuilding that no other entity can possibly compete with them, and they internalized all the knowledge. This made all the noble houses have to deal with them.
Perhaps some technologies are just so advanced and difficult, with so many people and specialized knowledge, that firms like TSMC are unbeatable. No one can compete and their global power is assured.
It's much more complicated then that. TSMC relies on a company called ASML which itself relies on a company called Carl Ziess.
ASML makes the EUV etchers, and carl ziess makes the optical components needed to focus the light... both companies hold exclusive technological monopolies on their respective products.
In addition to this, Samsung and Intel are not that far behind the technology curve for making these chips... with Intel quickly shifting to include the capability of being a global foundry for making chips outside of their own designs.
Historically the landscape in the chip industry changes very quickly. I'm sure your analogy fits some technology in the world, but semiconductors is not it.
And by definition, anything that uses a chip will depend on this, I think?
Cars, airplanes, game consoles, mobile phones... Heck, we have chips in pregnancy pee sticks these days.
So, I think all supply chains for "modern" things are insanely complex and effectively incomprehensible.
And this is not new, see the classic "I, Pencil"[0].
> Since only God can make a tree, I insist that only God could make me. Man can no more direct these millions of know-hows to bring me into being than he can put molecules together to create a tree.
Outside of specific fields/circumstances and/or a generous interpretation of just what counts as part of the supply chain, it’s basically impossible. The moment even the simplest items, like surplus vegetables grown and harvested by a slightly above subsistence level farmer on traditionally owned land, get carried in a truck, or even a bicycle, your supply chain explodes into a vast interconnected web of circular links. Which trucks trucked the parts to make the trucks to truck the parts to make the trucks that trucked the parts to make the trucks that… and so on.
The complexity of modern supply chains is in my opinion the strongest case for government regulations and against a lot of libertarian economic ideas.
It is impossible for the end-consumer, and even a lot of producers to know the provenance of every component in the supply chain. Even if every American consumer is against the destruction of rainforests, connecting the dots to palm oil cultivation and understanding the scale of ubiquity of palm oil in supermarket products is impossible. The only way out of this is government regulations.
I think that Eli Goldratt would not agree with you; number of connections does not determine the complexity of the system, it can be less complicated than system with smaller amount of connections. I believe these suppliers are pretty specialized, and that among those 4k+ there are "backup" ones too.
Disclosure: I know nothing about chip making :)
TSMC obviously relies on ASML. But a foundry is a complex beast. You don't simply place an order with ASML, set up a clean room and when the machine arrives press the on-button. There are A LOT of other processing steps that have to work properly (lithography is only one of them, albeit arguably the most complex one). What TSMC does is HARD. Just as TSMC cannot build their on EUV machine, ASML wouldn't be able to run their own fab.
Of course. Never stated otherwise. However what TSMC does is arguably more easily replicate-able by another foundry (say Samsung or Intel) than the EUV machine.
That being said, my main point wasn't to say that ASML has an exclusive monopoly over EUVs and therefore all chips... far from it. I was only illustrating the complexity of the supply chain. Many different entities have monopolies and the landscape constantly shifts.
Saying that TSMC relies on ASML and Zeiss is a bit reductive. If those were the ingredients of semiconductor success, then Intel wouldn't be in the position it's in.
Historically, the landscape of the chip industry has had many leading node players.
Now, it has ~1.75. TSMC & Samsung. With Intel and SMIC behind them.
The reduction to those 4 players, coupled with demand from mobile, GPUs, and ML accelerators, is pretty unique since the earliest days of the industry... when pretty obscene profits were also made for a long time (Intel, late 80s to 2000).
I'd call a decade of dominance a pretty stable industry.
ASML supplies the machines, TSMC builds the infrastructure around them to maximize yields/make the investment profitable. Both of them have built complementary IP that is nearly impossible to replicate without violating multiple patents and spending 10s of billions of dollars.
In case any readers are (like I was) torn on the question of whether such a patent based legal monopoly (or duopoly or oligopoly...) is justifiable compensation for the resources these companies undoubtedly invested, check out this short intro to a highly recommended book that deals with this issue:
That’s a great reference. A number of mainland countries were only able to catch up to Britain in industrialisation by suspending patent law for a while. Looking back I think it’s obvious that the result of this was hugely positive.
This also makes me somewhat sympathetic towards the lack of ip protections in China and other developing economies. Too often the patent system is used to kick away the ladder once one party has gained an advantage.
Still even without the patents. The knowledge and know how is incredibly hard to replicate. China doesn't even respect patents and they can't fully replicate the associated tech.
> Historically the landscape in the chip industry changes very quickly. I'm sure your analogy fits some technology in the world, but semiconductors is not it.
Semiconductors is as close as we've ever come to a natural monopoly. Aircraft are second. Boeing and Airbus are the only games in town.,
In Dune, the Spacing Guild held a monopoly on space travel because their navigators knew how to use the Spice to fold spacetime. Later in Frank Herbert's books, the Ixians replicate this ability technologically, ending their monopoly and the guild as an entity.
The lesson from Dune is that even the widest moat can be crossed.
The Dune saga ends with Paul gaining the throne. No one knows what happened after that.
Herbert spent years improving Dune since no one wanted to publish it. He shined it to a perfect diamond.
When Dune was published, it was a good enough success to warrant sequels. Herbert wrote those sequels quickly, and they did not get any polish. They are not diamonds, and no one ought to extract lessons from them.
One thing that gets overlooked in pop semiconductor talk, and casual tech discussion in general, is that not everybody needs the latest and greatest. There may be one or multiple companies making the futuristic chips, but there is also market room for smaller firms to produce last gen products and clones of older tech. As long as it is cheap and commoditized and available, there will be consumers. Think of Small Soldiers, when surplus missile cpu's find there way into toys because they are technically available and nobody wants them. At some point, things are good enough, small enough, and cheap enough to get mass produced by shoddier and shoddier participants. The market can support more than TSMC.
The thing with semiconductor tech, though, is that not only are new nodes faster, they also use less power and (eventually) are cheaper as well. Don't invest in new nodes, and it'll cost more money for the same number of transistors.
It's not as simple as that. You wouldn't make chip with less than a 100 million transistors on TSMC N5. Chips have not only maximal size, but minimal size as well. And you shouldn't forget about horrendous cost of masks. If you need a lot of very small chips for something simple you are better off using something like 28nm or older node. At the end total cost per chip is what matters for such customers, even if cost per transistor is higher. And, IIRC, cost for transistor is currently lower on N6 than on N5.
TSMC made the long term investments in R&D and expertise and are reaping it's rewards.
Just like the short scene spoken by the Bene Gesserit in the 2021 film:
B.G: "..our plans are measured in centuries; we have other prospects if he fails his promise." .. "On Arrakis we have done all we can for you. The path has been laid, let's hope he doesn't squander it."
There are many examples of such phenomenon throughout history. However, there are always economic incentives for those with knowledge to strike out on their own to increase their personal gain. That’s generally why such knowledge-monopolies end. An example of this is how textile machines were built in the US by memorizing plans from Britain.
Because these semiconductors are approaching fundamental limits of physics, it is unlikely that TSMC can achieve this status with anything like the current technology.
I think that Sophie Wilson said that cost-per-part is rising since we surpassed 22nm, heat is more of a problem because finfet can't dissipate as well as planar, and reliability is declining at smaller nodes. If I needed a 20-year service life, I would not choose 7nm.
> Perhaps some technologies are just so advanced and difficult, with so many people and specialized knowledge, that firms like TSMC are unbeatable.
Except that modern chipmaking is so complicated that even one company can't contain all the specialized knowledge. My understanding is that the Dutch company ASML is the only producer of EUV lithography machines in the world, which the chipmakers depend on to make their most advanced chips.
> Except that modern chipmaking is so complicated that even one company can't contain all the specialized knowledge.
(And capital intensive). But then again, these words could have been said about wannabe private rocket companies (SpaceX) or squeezing inside car market (Tesla), that actually turned out to be possible. So I wonder if any startup/billionaire will start to serve some niche chip market, be it capital intensive, but with some clever tactics...
Falcon 1 vs currently flying F9 rocket and potential Starship is a huge difference after all.
You have reinvented the economic theory of the natural monopoly. Notice that it's still possible to come (close) to the technological frontier, just not economically rational, and that if it costs under a billion dollars it's definitely not a natural monopoly.
Over a long enough time horizon eventually every dominant technology gets disrupted. But I'll bet that we'll all be retired before a credible alternative to semiconductor chips comes along for general purpose computing.
Even if quantum computers can be made to work at scale they'll always remain niche devices for running specialized algorithms. No one is ever going to calculate their income taxes on a quantum computer.
Intel isn't ballasted so much by chip fabrication for phone handsets. TSMC is. The few years of stagnation in the client computing segment coincided with early delays in the 10nm transition. It's always easier to lay out big money for long-term projects when your business is strong, but that just wasn't the case for Intel around 2015 or so. Handsets were booming, as was parallelized GPU computing. TSMC was a natural beneficiary due to its customer base.
Intel could have gotten into higher-end GPUs or AI processors; they have the demand, a GPU team, their management just wouldn't give them the physical space in any products to add it.
IMO this was plagued from the start, including the HPC accelerators (Xeon Phi or whatever those were called). Intel put too much emphasis on x86 compatibility and even then couldn't keep up with Nvidia, neither in performance nor software support, except for a few edge cases. Even back then, if you want to build a compute coprocessor, it needs to be a thoroughbred optimized for throughput at various floating point precisions depending on target market. Nowadays the entry bar is set at being able to reuse your ALUs at multiple bit widths to boost both NN and classic HPC applications with the same silicon.
They're supposedly working on it with Xe-HPG DG2. But knowing Intel and their shenanigans, I'll believe it when I see independent coverage and benchmarks.
I could never understand why Raja Koduri gets all the credit and press. ( Even in his ATI / AMD days ) And now coming close to 5 years at Intel. He has yet ship a single Discreet GPU.
Yet, if history is any guide, then at some point a tech disruption will turn everything on its head and there is no guarantee that the incumbent players survive.
Quantum / optical / bio chips? Nothing on the horizon anywhere close to market, but there is no fundamental reason to think silicon is the end game.
Samsung Foundry is still in the game, and Intel hasn't dropped out yet.
They're both trailing TSMC at the moment, but not by a whole lot more than in TSMC has trailed Intel in the (somewhat) recent past. Samsung allegedly will have 3nm in production early this year while TSMC 3nm has slipped to late this year. Remains to be seen how that actually ramps, but barring a significant problem for either, they will be close.
TSMC I think has tended to have an edge at the same node size name recently, although that can flip. Samsung will have GAA while TSMC will be on FinFET for example, so the 3nm battle will be interesting.
I don't think TSMC has quite emerged as the sole survivor just yet. Although it's also not clear that the industry trend for consolidation and competition gradually dropping out has changed to a more stable equilibrium.
> Samsung allegedly will have 3nm in production early this year while TSMC 3nm has slipped to late this year.
You're making the mistake of taking their process names at face value.
Samsung 3nm is less dense than TSMC's 5nm which has been shipping since 2020. They are more than 2 years behind, as they still haven't matched TSMC 5nm even when their new 3nm launches.
> You're making the mistake of taking their process names at face value.
You're missing where I said in the next paragraph you snipped off that TSMC has been ahead at the "node size name".
> Samsung 3nm is less dense than TSMC's 5nm which has been shipping since 2020. They are more than 2 years behind, as they still haven't matched TSMC 5nm even when their new 3nm launches.
For high performance logic, drive currents, leakage, switching power, metal resistance, etc can all be equally or more important than density.
The only thing I'd add is "key industries" would be highly capitalized industries. Chip making is the largest scale, most highly capitalize industry in human history. Chip plants are the largest buildings in the world, suppliers for chip manufacturers are themselves large and highly capitalized.
Two comparable industries are aerospace and nuclear energy (nuclear facilities cost 2-3x of a fab and nuclear weapons are on a different level of expense).
How does it actually compare to other industries, namely defense, aerospace and oil. These are all capital intensive, and if you want to be generous re the term "building", some of those refineries and shipyards are gigantic.
> How does it actually compare to other industries, namely defense, aerospace and oil.
The $12 billion given as the cost for TSMC's new Phoenix fab would buy you approximately 1 new Ford-class American aircraft carrier or a ~10% share in Canada's oil extraction industry.
Chip manufacturing really is the industrial big leagues.
And that's the bullshit, $30,000-toilet seat, parts-manufactured-in-every-congressional-district, Defense Contractor Special™ price. It should really buy you three or four aircraft carriers.
Yeah the Ford-class is obnoxiously overpriced. There is no way the key metrics of an aircraft carrier (sustained sortie generation rate, survivability, long-term maintenance) improved by the leaps-and-bounds necessary to justify tripling the price compared to a late-model Nimitz-class.
The last Nimitz-class carrier, CVN-77, cost $6.2 billion and was ordered in 2001, while the Ford cost $13 billion and was ordered in 2008. After adjustment for inflation in that period, it's only about 1.5x as expensive.
Communist states managed aerospace, defence and oil. But they failed to make modern computer chips even after trying, instead they started importing computers from capitalist countries.
Even worse: There was an export embargo for computers by the West, so the soviet union had to reverse engineer western chips and manufacture their own.
In 2022, TSMC is effectively the only game in town for the latest generation of chips - and isn't letting up. Anyone who wants to "catch-up" is now stuck with the daunting prospect of spending ~100 billion dollars to re-create a commodity business.
Maybe the fact that TSMC files around 1000 patents a year has also something to do with the lack of competition.
No, $100B is a tiny, single digit fraction of NATO military spending. I’m more concerned about the time and knowledge to spin up more manufacturing capacity.
sure but you still get the people while denying/disrupting your war enemy since the US and China may likely be in a shooting war if that were to happen
"Company that solves hard problems in key industry gets high profit margins, news at 11."
Well ... its' the company that develops power in the value chain, gets the big profit margins!
In this case, probably the 'hardest problems' are solved by ASML, in the Netherlands the sole provider of the key equipment TSMC uses to make their gear.
TSMC is the operating entity that uses their various bits of operational advantage, know-how and positioning to great effect.
It's almost like TSMC and ASML should be both talked about in every article, and that both Europe and US should be contemplating strategic initiatives in the operational part of leveraging the fact that their is a lot of money being left on the table in their home turf.
Edit: one of the hard parts about saying 'let's make the chips here' ... is that the 'stuff' that uses the chips are often made in China and Taiwan! Not always, but often.
You can see the effects of China 'creeping up the value chain' - it's hard to displace certain things if they control 'all the other moving parts, even the not very profitable one's' ...
I'd go as far as to argue most chips TSMC produce, especially mobile, are no longer a commodity. In consumer devices at least, people want TSMC vs say, Samsung. Their last couple efforts for Qualcomm have been quite horrendous. So much so that they're cutting a TSMC 8 gen 1 release soon.
I believe the government of Taiwan seen TSMC as existentially important -- the company is so valuable and unique that attacking them is essentially an attack on the world economy.
What about a slow seemingly unarmed takeover?
I think it's unlikely that the west would respond militarily, and that's probably what the Chinese govt counts on.
I mean, I guess if China convinces Taiwan to peacefully rejoin them, that's their right, and it'd really be none of our business, right? It seems like it would be quite a stretch, though, given recent events in the area. In any case, such a change would be slow enough that we could switch over gracefully.
Intel and Samsung are only a couple nodes behind, it would be expensive and annoying to change over but we'd manage it. I mean, go back 5 years, right? Computers have not massively changed since then.
The world wouldn't come to an end or anything, but if we didn't have so many cutting edge chips, we'd generally be spending more money to use lesser chips to perform fewer and lesser tasks while consuming more resources to do so.
They reduce power consumption and thermal management needs. That means more compute per a given battery constraint or thermal envelope. High-end mobile phones and laptops benefit.
In 2019, TSMC spent $14.9 billion on capital expenses while it generated $34.6 billion in revenues... in 2020, the foundry spent $30 billion and generated $56.8 billion revenues
"Shit is just bidness, String. Buy for a dollar, sell for two. That all it need be." - Proposition Joe
Intel and Samsung both have foundry capabilities. TSMC is just number one as of now. In a decade or two it is almost guaranteed that the top dog in this industry will shift given how historically volatile the entire semiconductor industry is.
> In 2019, TSMC spent $14.9 billion on capital expenses while it generated $34.6 billion in revenues mostly from investments in prior nodes; in 2020, the foundry spent $30 billion in 2021 and generated $56.8 billion revenues.
having trouble parsing this. is the datapoint from 2020 missing?
> TSMC set forth a three-year plan to spend $100 million on expanding its chip and packaging capacity [... but with global uncertainty], TSMC is only talking about spending somewhere between $40 billion and $44 billion on capex in 2022.
It's a huge issue. I think there's a decent chance China / Taiwan will devolve into a shooting war, and TSMC will either have its factories bombed at some point, or it will be nationalized by a victorious China and American investors will be told "This is ours now. If you own shares, write 'em off. You lost the war, so tough cookies."
I used to own TSMC stock. I sold it. Concern about this exact scenario is pretty much the sole reason I exited my position.
While its hard to argue that the chance of a shooting war is NOT decent, it's likely that China will not make real moves for the foreseeable future (maybe 5 to 10 years at least):
In order for China to make a move, they must be able to have confidence beyond doubt that their operation would succeed. As a failed annexation would cause political and economical havoc. In order for China to have high confidence in their ability to over take Taiwan, they need capability that is simply not available to them right now (Or any organization on earth for that matter) because to fight Taiwan means to wage asymmetric warfare against a technologically advanced, prepared, reasonably well funded, and determined nation.
Some considerations that China will have to face:
* Dispersed AA missile launchers (MANPADs) that will deny complete aerial superiority over Taiwan airspace. MANPADs are cheap, work without any centralized command system, can be operated by single user without much training, and can be concealed.
* Satellite and other intelligence technology that can detect boarding ships and potentially guide missiles to eliminate them. This is bad for China as boats are still arguably the highest throughput method of getting a lot of people somewhere, quickly. Aircraft will face problem with AA.
* Cruise missile counterattacks. Taiwan doesn't have that many cruise missiles, and they each don't carry a massive yield in terms of payload. However in the event of real hostility, Taiwan can deploy them against many airfields and supporting infrastructure of the China military. This will definitely at least hinder operation of many facilities.
That's just my understanding so far. And of course, things will change, so we'll see how it goes in the future.
> it's likely that China will not make real moves for the foreseeable future
All it would take is an incident causing the dictatorship's leader to lose face and force him to take action to distract from the crisis (see Falklands War for example.) It could be anything, something like an industrial accident at a poorly managed facility causing massive deaths and a worldwide crisis. Initially they would cover it up but when it becomes public, like in Chernobyl, the régime would be discredited and forced into a panic.
I know it is far fetched, it's hard to see how such a mishap could have such far reaching consequences, but it realistically could happen at any time.
While not official, the US has stake in the game. They have actively prevented ASML euv machines from being distributed into China. A move against Taiwan is a big move against US interests so China and the US are at a stalemate.
Should China attack Taiwan it will be at a time when the semiconductor industry is the least of our concerns and the US is in a significantly lower position than China.
Right now it's just cold war era threats with both sides being paranoid of the other and both sides also being too afraid to act.
Most of this is wrong even for a few years ago when fanciful western projections of PRC campaign ovre TW was extra wrong.
PRC planners have concluded it can take TW without US intervention ~5 years ago. US/JP planners have finally admitted the same this year. Reality is TW has an extremely outdated military that's not at all well prepared or well funded. It doesn't have any extensive asymmetric training, nor is the nation determined to fight insurgent style if shit hits fan. Those are all US porcupine wish lists, and none of it was / is remotely reality.
The consensus understanding right now is sheer imbalance in capabilities (PRC has both quantity and quality) means PRC will be able to do to TW what US did to Iraq. More or less annihilate their military from the conventional fight within a few days after which PRC operations would be relatively uncontested.
>>>Dispersed AA missile launchers (MANPADs) that will deny complete aerial superiority over Taiwan airspace
MANPADs have altitude limitations. Fixed wing manned aircraft can fly high, and use precision munitions to prosecute targets. China also has a large fleet of combat drones that can fly the riskiest mission profiles, even drawing out Taiwanese air defenses by provoking fire, revealing themselves for counterattack.
>>>Satellite and other intelligence technology that can detect boarding ships and potentially guide missiles to eliminate them.
That would borderline on a pre-emptive attack which could be easily spun by the CCP in the court of international opinion. Also, the PRC's integrated air defense systems along the coast are damn heavy, not to mention their surface fleet's own air-defense ships. Good luck hitting ships in harbor with cruise missiles.
The main advantage Taiwan has is that the PLAN has insufficient amphibious shipping capacity to put enough combat power ashore in a reasonable timeframe. But they already have 2 brand-new LHAs out a total 8 planned: https://en.wikipedia.org/wiki/Type_075_landing_helicopter_do...
Combine with the PLAN's existing 8 LPDs ( https://en.wikipedia.org/wiki/Type_071_amphibious_transport_... ), and STUFT (Ships Taken Up From Trade, aka "civilian RO/RO ships pressed into moving military hardware"), and they should be able to credibly move several divisions by 2025. With the growth in their surface combatant fleet and the modernization of their air force, they should be able to keep the US/Japan/Australia busy long enough to not interdict their amphibious assault.
Chinese leaders will still be leaders in a China without chips and if the rest of the world has no chips its not their worry. They will be less playful times with less gadgets and slower processes but no dictatorship ever worried about building walls around their borders. Actually they help the dictatorship to control the people inside.
That's not necessarily good on the long term. China was on par with Western powers until about 1500-1600 and had everything they needed. Then they grounded their fleets and turned inside. In a couple of centuries the British and everyone else came knocking at their harbors with gunships. China recovered only recently.
Question is, is TSMC spending more money than it can print. It's dumping 100s of billions in offshore capex that triggered after Sino-US tensions trying to move semi off island. Surprise capex that IMO it never had intention to expand considering it already announced record capex expenditures year prior. Subsidies only go so far. And semi demand will eventually normalize after covid19 disruptions, or do we expect TSMC to be insulated from the bust cycle
I heard they are building factories outside Taiwan now. Also it’s been like this since 1945. This is not relatively a time of heightened tensions historically
They reinvest most off their profits, aren't interesting to the common investor and is growing steadily year over year. Buy it and don't complain. I assume it will 2-3x in the following years with large returns on their investment.
The longer I've worked in tech, the more it becomes obvious why traditional business school approaches do not work in innovative fields. Between 2000 and 2016 Semi firms focused on outsourcing the expensive and high risk portion of their product to firms like TSMC, starting around 2016 a lot of companies looked at the risks and costs of further node shrinks in what they believed was a commodity business - shrugged their shoulders and decided they wouldn't chase after it.
In 2022, TSMC is effectively the only game in town for the latest generation of chips - and isn't letting up. Anyone who wants to "catch-up" is now stuck with the daunting prospect of spending ~100 billion dollars to re-create a commodity business.