Acquired - Complexity Investing & Semiconductors (with NZS Capital)
Episode Date: November 3, 2021Of our 65+ sources for the TSMC episode, one stood above the rest: a wonderful Knowledge Project episode with Brinton Johns and Jon Bathgate of NZS Capital laying out the state of the semicon...ductor market. When coincidentally we met Brinton a week later, we knew fate was telling us we had to dig deeper. It turns out NZS has a lot more to teach Acquired than just about semis! Here we dive into their fascinating philosophy of "complexity investing", which was born out of their interactions with the world-famous Santa Fe Institute (of W. Brian Arthur and Increasing Returns fame!)... and of course we also throw in some semiconductor shop-talk for good measure. :)Sponsors:ServiceNow: https://bit.ly/acqsnaiagentsHuntress: https://bit.ly/acqhuntressVanta: https://bit.ly/acquiredvantaMore Acquired!:Get email updates with hints on next episode and follow-ups from recent episodesJoin the SlackSubscribe to ACQ2Merch Store!Links:NZS Capital: https://www.nzscapital.comThe Santa Fe Institute: https://www.santafe.eduNZS's white paper on Complexity Investing: https://static1.squarespace.com/static/5ca38f3216b6405d11e3d4b4/t/60131df6a8d27d63432ea5ff/1611865607574/Complexity_2021update-v9pt2.pdfBrinton & Jon on The Knowledge Project: https://www.youtube.com/watch?v=r6NUO_bymuATwitter: Brinton: https://twitter.com/bjohns3Jon: https://twitter.com/jbathgateBrad: https://twitter.com/bradsling Note: Acquired hosts and guests may hold assets discussed in this episode. This podcast is not investment advice, and is intended for informational and entertainment purposes only. You should do your own research and make your own independent decisions when considering any financial transactions.
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Okay. Excitement, fun, brevity.
I love it.
For brevity is the soul of wit. Is it you? Is it you? Is it you? Sit me down, say it straight. Another story on the way.
We've got the truth.
Welcome to this special episode of Acquired, the podcast about great technology companies
and the stories and playbooks behind them. I'm Ben Gilbert, and I'm the co-founder and
managing director of Seattle-based Pioneer Square Labs and our venture fund, PSL Ventures.
And I'm David Rosenthal, and I am an angel investor based in San Francisco.
And we are your hosts. On our TSMC episode, one of the 65 sources that we used was an episode
of The Knowledge Project with Brinton Johns and John Bathgate. Brinton and John are public
equities investors at a hedge fund called NZS Capital,
and they spend a lot of their time researching semis. It was packed so full of great content
that I actually watched it twice to make sure that I understood everything.
It was so good.
It was awesome. And then in a wild coincidence, the very next week, even before we shipped the
TSMC episode, David and I were at Capital Camp,
great event organized by Patrick O'Shaughnessy and Brent Bishore. And we ran into Brinton in person. And I was like, I recognize that guy. What do I recognize him from?
It's like the Spider-Man. Yeah, it's like, you. No, you.
Very, very much so. So after nerding out the whole rest of the event on TSMC, geopolitics,
semis, we decided to have Brinton
and John on Acquired. And on this episode, we actually didn't even get into semiconductors
for the first hour since it was so fascinating to hear about their investment principles at NZS.
And I've said this many times on the show, but yet again, new frameworks that have totally
changed the way that I think about the world. It's frameworks all the way down, Ben.
It is.
Okay, listeners, now is a great time to tell you about longtime friend of the show, ServiceNow.
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Now, as always,
this is not investment advice.
We almost certainly hold stocks
that we talk about on this episode.
So do your own research, make your own decisions, but love the frameworks that we dive into
with Brenton and John.
So without further ado, on to our conversation.
All right.
Well, listeners, we want to introduce you to NZS Capital, their investing philosophy,
and partially because we think they're a fascinating firm, similar to Honam of Altos or
Hamilton Helmer of Strategy Capital, but also the deeper David and I have dove down the rabbit hole
the last week of reading all the papers they've published, we feel like we've gotten a lot
smarter. And so we basically just want to expose the world to more and more of that. So Brenton
and John, welcome. Thanks for having us. Thanks for having us. Well, first, let's start with complexity theory, which is a
concept that your whole firm is based on, and you've published a 47-page paper on that is just
A, full of fun little graphics, but B, I think probably has five to eight kind of mind-blowing
concepts in them. And the first one is,
you come right out and admit that you don't know the future. What's going on with that?
You would be bad marketers as VCs. Nobody claims to know the future.
No, I mean, look, the whole investing philosophy comes out of a lot of pain,
right? So we were investors for a long time. We are wrong a lot. Like all investors are wrong a
lot on a consistent basis. And we were just looking for a long time. We were wrong a lot. Like all investors are wrong a lot on a consistent basis.
And we were just looking for a better way to think about things.
Somebody suggested this book to me called The Origin of Wealth by Eric Beinhacker.
And sort of serendipitously around the same time, someone suggested Complexity by Mitch
Waldrop to Brad.
And we both read those books and Origin of Wealth was a slog. I think it
took me six months to really get through it and then swap books and started thinking about sort
of a different philosophy. I'd heard a little bit about complexity theory and the Santa Fe
Institute, which I want to get into. I think Bill Gurley talks about this fairly frequently and
Michael Malveson, and that's how I kind of originally got turned onto it. But tell us a little bit more about what is it? Because it's not at all about investing,
it's about the world. That's right. Yeah. In fact, I think it was Bill Gurley that
recommended complexity to Brad. Complex adaptive systems are all around us, right? That's what
governs the world. That's how the world works. We don't know how the future is going to unfold
because the system is interacting together and it creates what's how the world works. We don't know how the future is going to unfold because
the system is interacting together and it creates what's called emergent behavior. And emergent
behavior makes predicting useless in most cases. And we can have guidelines and heuristics and
those are all helpful. But as far as exact outcomes and what's going to happen in the future,
those are a lot more difficult. Santa Fe Institute started with a group of scientists from the
Los Alamos National Labs, and they came together and they were mostly physicists and they started
talking to economists. It was sort of hard sciences and soft sciences. And the physicists
were like, hey, economists guys, you guys seem really smart, but your theories, they don't work.
Like all your math doesn't work. So what's up with that? With our math, it's extremely
precise. In fact, when the math is off just a little bit, Einstein's like, oh, your math is
off. Pluto should really be here. And he comes up with the theory of relativity, right?
It's like, we literally made the atomic bomb. It works.
Yeah, it works. And so they started coming together around this idea of complexity. What
is complexity? How do we define complexity? Where does it sit? And because we are living in
this complex adaptive system, how do we think about the future? How do we think about life?
How do we think about going forward? And for us, this sparked an interest in biological systems.
And we found this sort of biology vein much more interesting than the traditional economics vein
and much more applicable to investing than the traditional economics vein. Well, that's so cool. And am I right that
y'all actually went to the Santa Fe Institute and took courses there? How deep did you go in this?
We did. A lot of rabbit holes we go down, very deep. We quickly became members of the Santa
Fe Institute. They call it the action group. It's this group of non-scientists that are allowed to
sit in on a lot of the
science. And so then we took this complexity course over a weekend, Brad and I did at Stanford.
And that was just a ton of fun. Actually, John and Joe, the two other investors on our teams,
they took a longer course. They actually had to do real work. Brad and I didn't have to do homework.
But we just learned so much. And I remember sitting outside of this cafe in Palo Alto with Brad, and we'd just sort
of been at this course with Debra Moore, this lady that teaches at Stanford who studies
ants.
And I thought, man, this concept of resilience is really fascinating.
You know, it's really more about resilience than it is about predicting the future.
And it's about adaptability.
Biology doesn't really care that much about the future.
They care about adapting to this wide range of futures. My bees don't really care if it's going
to snow tomorrow. They can adapt to snow. They've learned how to do that over millions of years.
And what if we looked at companies like that? And so then, of course, we kept reading,
we kept writing. This was probably 2011, 2012. And then in 2013, we published this long paper
that you referenced, which is super geeky,
but it's got a lot of pictures because that's the way we think.
You've got the back to the future DeLorean in there.
It's got the DeLorean.
Like what more could you want, right?
We're really hoping for a DeLorean for the office.
That's our dream office furniture.
On the note of ants, this is probably the first and best example of an extreme version
of resilience in an organization. Can you share the insight you
had there? Yeah. So we attended this class by Deborah Gordon, and she has been studying this
group of ants for 30 years in New Mexico. They obsess over this group of ants, right? And they
know what every ant is doing at all times. And what they found was really fascinating. They found
that about half the ants in the colony weren't doing anything. They were just sort of sitting around and then they had half the ants
doing these defined jobs. And that's very counterintuitive. We think of ants as sort
of the ultimate productivity machines. But it turns out ants aren't optimized around productivity.
They're optimized around longevity. They're optimized around resilience, around living as
long as possible. Let's say it that way. So that was really insightful for us.
We thought, man, all these companies
are optimized around productivity
and Wall Street only makes it worse
because we're obsessed over quarterly earnings.
And so what if companies were really optimized
around this long-term thinking?
Of course, we see that with lots of companies.
Most of them tend to be run by founders
because founders have a lot of skin in the game
and they think long-term.
But there are CEOs that think that way also. We know that the average tenure of a CEO in the S&P
500 is less than five years. So they're not optimized like ants are. They're trying to get
a lot of return really quickly. But companies that take this long-term view are so much more
interesting. When I read that in your paper, the thing that hit me over the head, I was like, oh,
this is Warren and Charlie's laziness bordering on sloth. That's exactly it.
The goal is not productivity. The goal is long-term steady returns and resilience.
I think Warren and Charlie grokked this very early. And there's a lot of science behind it,
math, but they don't need that. They're so good with folksy wisdom.
So then the thing that hit me, of course, I'm like, well, a company is not going to have half
their employees sitting around doing nothing. But just as a fun thought experiment, what if a
company only was growing at half the growth rate of a high growth company, but it's a marathon on
a sprint. They could do that over 40, 50 years instead of thinking in these five and 10 year
time horizons. Do you have any good anecdotes on,
I know you have this firm belief that hyper growth is bad and actually slow,
very long-term compounding growth is the real holy grail.
Yeah. I mean, I think what we're generally looking for is we kind of use Groupon as an
example, whether that's fair or unfair of like, we're not looking for the next company to hit
revenue run rate in the shortest period of time or whatever it is. Like we're really looking for this durable,
resilient growth. And I think that the way you framed it then that if a company does have
employees that aren't driving the, I guess, level of growth that you'd be seeing in a hyper growth
firm, that's okay as long as it's hyper durable. And so you could look at, I mean, look at Danaher
or kind of like some of the classic iconic growth companies that have compounded for decades.
And that's generally where you see the compounding is obviously you compounded 10 to 12% a year
or in the teens, but you can do it for 10, 20, 30, 40 years.
You can just get tremendous value creation.
So I guess some companies in the portfolio we admire that do that would be someone like
Texas Instruments, where they have a really decentralized culture and and they actually push responsibility and decision making down into the deeper parts
of the organization. And so the CEO is not really a manager, he's a capital allocator,
and he almost has to think more like an investor and a portfolio manager than an operator.
And so I think that's what we really look for, is companies that can provide this durable growth.
Again, it's very Buffett-like. We're hopefully finding companies where you can just set it and
forget it, and they're going to put up moderate to
healthy growth for 10, 20, 30 years. And in our framework, which we can talk about around
resilience and optionality, that's what we're looking for in the resilient bucket of portfolios,
these companies that can really compound it at a healthy rate for a very long time.
Yeah. So you guys have these two concepts and then one kind of super concept that combines both of them
of resilience and optionality that you look for in investing. And neither of those are terms that
most investors are familiar with. Can you define what you mean by both of them and maybe give a
few examples of companies? Sure. On the resilient half of the portfolio,
we kind of say, you know it when you see it,
which I think is kind of an unsatisfying answer. But generally what we're looking for are companies
that are further along kind of in their S-curve and their growth trajectory. And so this would
be companies we own in the head of the portfolio, be someone like a Microsoft or a TSMC, where we're
not looking for value stocks or kind of like cheap companies. We're looking for companies that are
healthy growers that we think can durably grow for the next 20 or 30 years. And our turnover in
this half of our portfolio is around 10%. So this is the hopefully set it and forget it part of the
portfolio. And so they know a few characteristics we tend to see in that part of the portfolio,
our mission criticality and switching costs, which I know you guys cover well,
and some of the deep dives you've done. I mean, just scale like TSMC, we can talk about in more
detail, just like a classic scale company where we talk about power laws in our investing framework and pockets of industries where one company can take 90 to 95% of the profits in a given industry.
And TSMC is a great example of that.
And then you exactly the way you guys laid it out so well on your episode on TSMC is you really get the flywheel going, right?
Where the more scale you have, the more you can reinvest, the more you can impact your customers.
And it just becomes this beautiful compounding machine. The last bucket we probably would see in the
resilient part of our portfolio is just network effects-based competitive advantages where you
see companies that really hit their inflection point. And again, especially in digital markets,
you'll tend to see a handful of companies or potentially one or two companies take most of
the economics in a given market, like digital advertising or smartphones. There are just so
many markets where there's one or two players that have 80% to 95% of the profits in a given market, like digital advertising or smartphones, or there's so many markets where there's one or two players that have 80 to 95% of the profits. And so we tend to see
those in the resilient part of the portfolio. And one thing I think was really counterintuitive
about how you guys think is you're actually not looking for moats. The companies you just
described, and I think a lot of investors think about like, oh, wow, well, they've got really
deep moats. And so of course, you want those as your long-term
compounding holds. But you guys have a little different perspective on this, right?
Yeah, we have a little bit of a different take. And so I don't want to offend anyone that uses
the term moat because I think it's a great term and it's a great part of anyone's investing toolkit.
But I guess one of the things that we're careful about is looking for companies where
part of their moat is inserting themselves into the value chain or into their customer's share of wallet, basically, where they put themselves in a position to extract as much economics as possible.
And so I think that can be viewed as, especially in kind of a more of like an industrial age view of how competitive advantage has evolved, is that something that we try to avoid? We're not trying to look for a company where they feel like they have customer lock-in and then all of a sudden they can raise
price 3% to 5% for the next 10 years. Part of our framework and the reason we named the firm
NZS Capital is we're looking for non-zero sumness. So looking for a win-win outcome for all
constituencies across the value chain that includes the company's employees and their
customers and also society and the environment at large.
And so we're just careful looking for companies where all of a sudden, if I have this moat,
then I can screw my customers over the next 10 years, right? I think that's what we're
careful about. I noticed, I don't think you guys hold Apple, right? But you do some of the other
large tech companies. And this feels like a perfect example to me of like, oh, Apple,
like incredible moats. They're getting pretty good at value capture over there.
Yeah.
Yes, that's a very nice, polite way of putting it.
You obviously see it with Spotify in the EU and Epic here in the US and being in the news
flow constantly.
I just think when you get to a point where you're taking so much economics for your business,
which already has the largest market cap in the world, that your key partners on your
platform are taking you to court or taking you up to various
regulatory bodies or writing white papers on how you're screwing your customers. That's just what
we're trying to avoid. And who knows, it might work out perfectly for Apple over the next 10 years.
It makes you less resilient.
Yes, exactly.
Is that the idea that if there's consumer surplus, money left on the table for consumers,
where they're not getting every dollar extracted that they could by the company,
that that company is more resilient over time, even if they're not making every profit dollar
and growing as quickly as they could today. I agree with that. I mean, if you really have
a management team that's thinking really long term, I don't know why you wouldn't
give up a little bit of extra economics for your key partners, whether that's suppliers or
developers on your platform or your customers to really solidify your trajectory over the next
10 to 20 years versus, I don't want to pick on Apple too much, but what's the gross profit impact
if they cut their app store take rate from 30% to 15% across the board? What is that,
like 5% of gross profits? It's meaningless to them and it would create so much value.
There's obviously knock-on effects of that. But anyway, I think that's what we're looking for
as companies that are paying it forward. Again, back to the TSMC example, because you guys covered it so well.
TSMC has lower gross margins than most of their customers.
And so at any point, they could probably take their margins from 50% to 60% and say,
hey, I basically have a monopoly in this market.
But the way Morris Chang architected the culture there is on long-term value creation and really
creating a platform for their customers to create massive, amazing businesses. And so I think that's the way we think about it. Yeah. And just for listeners to put some
numbers behind this concept, which I think is just great from this NZS white paper, 15% growth over
10 years would deliver more than a 300% return. Not bad, but 15% growth over 15 years would almost
double the 10 year return. If we could populate our top 20 positions with these types of resilient companies, we'd
only trim and add around periods of volatility.
All the real absolute dollar value of compounding shows up in the out years.
So you just want to make sure that you're still compounding in the out years.
That's right.
And it's sort of where we take issue with Porter.
This is, of course, Michael Porter, competitive strategy, Porter's five forces. And that's a terrible way to build a business because eventually someone will undercut that and offer actually a better value prop to the customers.
And because all of this value are in the out years, it was really not a value maximizing
way to run the business either.
So we think this concept of creating more value than you take is really important.
And Porter agrees.
He actually revised his thinking and in 2019, wrote a paper in Institutional Investor called
Where ESG Fails,
where he talked about this concept of shared value. And that's not him trying to say that
purely because it's good for the world to care about all your constituencies, not just your
shareholders, but also your customers and partners. He's literally making an economic
argument for shareholders that that's the long-term value maximizing thing to do, right?
I think that's right.
And he was a consultant for Intel back when ARM processors were starting to come out and
actually dominate the mobile space.
And they came out with this sort of dumped down processor.
The Atom?
Yeah, exactly.
But even before that, they came out with a cheaper version of it.
But in reality, that's not what they should have done.
They should have actually embraced a totally different business model like ArmDead,
where they were just selling IP and enabling a whole ecosystem instead of trying to take all
the profits for themselves. Okay, so that's the resilience side of
NCS thinking and the portfolio. Then you also marry that with something very different.
Tell us a little bit about optionality and how you think about that. Yeah, really, we're thinking about the future,
we're just thinking about how broad and safe is the prediction we're making. So we can make these
very broad, safe predictions, like we think electronics are going to push deeper into the
world, right? I think in nine out of 10 copies of the multiverse, that's happening. But there
are other predictions, like we think EVs
are going to dominate the world and Tesla is going to be the power law winner inside of EVs.
That may only happen in two out of 10 copies of the multiverse. It's certainly not 10 out of 10.
So these predictions are much narrower and the range of outcomes is much broader.
And so that doesn't mean we can't invest there because it's incredibly asymmetric if we end
up being in that copy of the multiverse.
But if we're not and it's a zero, it also doesn't torpedo the portfolio.
So I feel like actually you guys could give the masterclass here since you're such great
venture capital investors.
But that's really what we're trying to expose ourselves to in these earlier stage public
equity companies.
And so how do you actually then apply both of these
very different principles inside the same portfolio? Are you picking some stocks because
you're maximizing for resilience and you say that, look, this is a great compounding,
slow growth, but durable company. And then there's other companies that you're investing in
because you
say, oh my gosh, if this thing's right, it's going to be really right. Like venture capital,
asymmetric upside, right? Or is it blended in some of the same companies?
Yeah, you're right. It tends to be these two portfolios in one. So we concentrate resilience,
that's about 15 names in just over half the portfolio. And then we distribute optionality.
So that's about 40 names, also just under half the portfolio, And then we distribute optionality. So that's about 40 names,
also just under half the portfolio, max position size, one and a half. And in the middle,
it's between one and a half, two and a half, one and a half, three. We don't own anything.
And that's percent of the portfolio?
Thank you very much. Percent of the portfolio. I say this stuff so much,
sometimes I don't complete the sentences. And then sometimes we find these very resilient
companies that are actually layering on optionality to the business. And then sometimes we find these very resilient companies that are
actually layering on optionality to the business. So they have both. They have this resilient base,
but then they have optionality on top of that. And you call those companies rootmos?
Yeah. We're such geeks. It's so bad. It's the resilience with out of the money optionality.
It's just a shortcut on the team that we use. And those are the companies that you bump up to 7%, 8% of the portfolio, right?
Yeah.
What are some examples of those?
Well, I mean, sort of there's a couple, right? The classic example would be Amazon
in 97 when they went public, I think around a billion dollar valuation. Nobody could have
foreseen AWS, right? That wasn't anybody's DCF. Oh yeah, they're going to also create
infrastructure that everybody in the world is going to use to create businesses. They sound so silly, right?
But another one that we had in the portfolio years back was eBay. I don't know if you guys
remember the marketplace business was struggling. They brought in a new CEO, John Donahoe. They had
PayPal and really you weren't paying for any of PayPal. If the marketplace business would recover,
that more than cover the cost of
entry. Of course, marketplaces did recover. PayPal ended up being great. John Donahoe is
an amazing leader. And that was a classic root mo stock. So in that situation, you've got a
fairly resilient business, or the hope is that the marketplace is a resilient business. And then
PayPal is the out of money option that you sort of have that's being valued at zero, but clearly is a very valuable business. That's exactly right.
What I think what's cool about this, yeah, right. This makes a lot of sense in investing.
This also makes a lot of sense in how you should run your company.
Yeah. And that the best CEOs think this way, as in, how do I create resiliency in my core business? But then what are the options that
I'm investing in for the future on top of it? To my mind, there's no better example than Amazon
of just, this is the whole operating philosophy of the company, right?
So we love this concept because we think it's true in the universe. And so therefore,
the narrow slice of investing that we're using it for, we're pretty sure is also true.
But it works really for everything. I mean, it works for parenting. Parents don't know what we're doing. Like I have
four kids, I have no idea what I'm doing. So I'm just trying new things all the time. Well,
that didn't work. Okay, well, you know, so there's a little optionality involved too.
And then sometimes your optionality becomes resilience. And that's what you're hoping for.
But you just try a lot of new things. So I don't know, for us, it's a life philosophy.
Fantasy football is another area where I can, you can apply resilience and optionality very well,
actually. You can't get out of your head once you start kind of practicing this,
which is so funny. All right. I'm going to take us in a totally different direction.
I want to talk about the difference between normal distributions and power law distributions.
And listeners of the show who are in venture capital or in startups and have tried to raise
venture capital or successfully raise venture capital will know, you know, they get this answer from
VCs all the time that our portfolio construction is really a power law. We fully expect a third
of the portfolio to go to zero, a third to return capital, and really only like one or two companies
at the sort of head of the curve are going to be this hopefully 10, 50, 100x that sort of gets us a great return regardless of
what else happens in the portfolio. You guys, interestingly, are sort of applying that thinking
at much later stage companies, hopefully ones that aren't going to zero, the way that a frail
$10 million valuation startup could. How does that work? And what was the insight that made
you realize, hey, the world is not normally distributed. Actually, in certain scenarios, it's very
power law distributed. Right. Well, once you accept the fact that all of life is governed
by complex adaptive systems and the markets are also governed by complex adaptive systems,
which means emergent behavior, you can't predict the future, you focus on adaptability,
then of course, those complex adaptive systems tend to
be governed by power laws. So it's sort of a natural follow on. But the insight here is all
risk models are based on these Gaussian, these normal distributions, right? But in fact, the
world doesn't work that way. And so there's a really fascinating economist named Ole Peters,
who's done a lot of work here and said, wait a second, your risk models are sort
of like airbags that go off at stop signs, but not when you get in a crash, right?
This has always been my beef, you know, when I was in business school with economics as applied to
like business and investing in the real world is you study this stuff and you're like, wait a
minute, I actually work in the industry and this is not how it works.
Right, exactly. And being venture capital investors, you see this all the time.
With public companies, it's also true. There are a few big power law winners. We see them
in the market today. They're driving the entire market, right? This is our reality.
There's a great study that you guys referenced in the paper that I'm wondering if you could
just talk a little bit more about it. The toy example of a coin flip,
a coin flipping contest, where let's say you win $50 or whatever, when you lose, you lose 40.
That sounds like investing to me, like there's an expected return of 10%.
What actually happens when you run that contest?
Wait, real quick before you answer. Is it that? Is it win $50, lose 40? Or is it 50%?
Oh, it's percent. Okay.
Yep. So if it's $100, then yeah, you're right, David. It's 50% down 40%.
Got it. Okay.
Yeah. The concept, it gets to the heart of modern portfolio theory and expected utility theory
and the flaws of that. So back to the multiverse. The way this works is if you had 100 people flipping coins,
and they did it for enough time, you would actually see a nice, steady, positive return.
And that looks like, on average, the experience of the participant is winning. But that's not
really true. What you get is a lot of people going bankrupt and a few massive winners,
sort of the Buffetts and the Soros of the investing world, right? So the average is not
average. And in one portfolio theory, you're taking an ensemble of all these, but that doesn't
really make sense because I don't really care about your outcome, David, or Ben, your outcome.
I care about my outcome. And I only get to live in this one universe. I don't get to live in yours.
You know, I don't get to live in the multiverse. So my outcome on average is that of loss. It's
that of bankruptcy. So when the time average
does not equal the ensemble average, that is called a non-ergodic system.
And you guys can put in the show notes, Olai Peter's works on this. It's super geeky,
but really fascinating. That's so cool. Well, this is so counterintuitive. You would think
if you presented that game to me, I would be like, oh, for sure I want to play that game.
The odds are stacked in my favor. But most people who play that game will lose, and then a few will win really, really, really big.
That just blew my mind reading that. Yeah, the distribution set is not normally
distributed. It's power law distributed. And so that changes everything. And that's why all these
risk models are like airbags that go off at stop signs, right? It's because it turns out the world
doesn't work that way. So we hear on a regular basis, oh, this was a three standard deviation
event, you know, which if you understand the math of three standard deviation events, you expect,
oh, wow, I'm so lucky to have seen one of these in my lifetime. But we see them a lot,
according to the media. And so, it's sort of ridiculous. 99.73% of all events should fall
within three standard deviations is the way the math works.
Meanwhile, I mean, I've been in this business for 13 years and already been through two recessions
that are way outside of three standard deviations. Britain has as well. And so it is just kind of a
funny kind of common sense thing that when you're practicing this stuff, the normal distribution
doesn't really make that much sense. Britain mentioned I took this course at the Santa Fe
Institute. It was actually around this time last year.
And like, I mean, just power laws are just like so cool.
It's amazing.
I mean, one of the examples we use
in the white paper is if you plot
like earthquakes by frequency and intensity
that just like in nature naturally forms
a power law, which actually makes a lot of sense.
You're going to get, you know,
one or two or three heavy magnitude earthquakes
a year and then a lot of small ones.
But also if you plot the frequency
of every word in the book, Mobyby dick that actually also forms a power loss the is mentioned 15 000
times and then the next word is and and that's like 7 000 times and then there's like this super
long tail of words that are only you know used you know a handful of times again it's one of
these things once you see it and it's amazing for starting companies obviously like we mentioned
especially in kind of digital markets because you know the world is going towards more markets where a winner can take all and, you know, becomes much
more of a power law dynamic. And so that's why we just always have our kind of antennas up for
these power law dynamics. That's honestly a big part of when we're looking for optionality. That's
what we think about is like, is this a company that is relatively earlier stage in public markets
that has the opportunity to power law, you know, a large market, which is why, of course, you're
making 40 diversified
optionality bets here. Because it's funny to think about this, but the statement of,
let's go back to the stop sign example. Yeah, the vast majority of the time, the fact that these
airbags don't work is totally not an issue. But it's a massive issue the moment that you need
them the most. Very similarly, all of the gigantic outsized economic value is created
from the three, four, five, six, seven sigma events in the world. And so it's kind of ludicrous to be
like, well, the vast majority of the time, this investment philosophy is very sound. And you're
like, yeah, but we're not really trying to index on how many days out of the year it's sound. We're
trying to index on how much value can get created year it's sound. We're trying to index on how much
value can get created at the end of the portfolio 50 years from now. And that's going to be driven
by the outliers. So we have to be prepared and fully optimize around the outliers, not close
our eyes to the few days that they might exist. That's such a good point. I'm really glad you
brought it up because what we're really playing for in the optionality half the portfolio is asymmetry. And really, it's not about batting
average. It's okay if we're only right 30% of the time, which is not intuitive at all for public
markets investors, I think. I think everyone wants to be right 55% of the time, 60%, whatever. It
doesn't have to be that high to have good long-term returns. But we're playing for slugging percentage
where even if only one out of three work, but those are multi-baggers and can really create
a lot of value over a long period of time, then that's the beauty in that half of the portfolio.
And we've seen it. We've been doing this for years now. And it is amazing how you see these companies
emerge as value creators and generate a lot of value for the portfolio out of relatively small
starting position sizes. It gets back to this whole idea of you don't know what's going to
happen. If you set everything up with the idea that you don't know, I think in a lot of ways, most venture capitalists grok this idea and set up their portfolios in this way.
But I think lots of people, myself included in the past, didn't fully understand this.
You say in the paper, I think you use nicer language than this, but I'll use my own language.
This is my quote, that conviction, this idea of conviction
that so many people in venture talk about and entrepreneurs like I've conviction, I'm convicted,
which convicted means you're convicted of a crime. But anyway, I have conviction that in this
company, I'm going to lead this investment. Conviction is kind of stupid. Conviction is
saying, I think my view of the future is going to be right.
And really what you want is optionality.
And you need people to have conviction because otherwise there would be no entrepreneurs.
That example of the coin flipping contest, that is exactly the dynamics of becoming an entrepreneur.
The expected value is positive.
And yet the vast majority of people who start down that path go bankrupt.
And then a few people win really,
really, really big. But when you're constructing a portfolio, what you actually want is a lot of
those bets. You guys have 30, 40 optionality names in your portfolio. As a venture fund,
you want 30, 40 quote unquote names in your portfolio. Venture portfolios with five or 10
are very non-resilient.
Yeah, that's right. I mean, we use conviction as a synonym for overconfidence. I think that's what really is the right way to think about it. Conviction for us means, hey, I've done a ton
of work, so I've got a lot of sunk costs, which means I've got bias. And I think that my view of
the future is better than yours. That is literally what you're saying when you say that.
Yeah, right?
So who knows, right?
What we're trying to do with the tail of the portfolio, and I think what you guys are trying
to do in venture capital investing is maximize the probability that we get lucky.
I just ripped that off for Malbison.
He's very good at calling it what it is.
And we're just trying to maximize the probability that we get lucky.
I also think, I mean, just changing your mind is the hardest thing to do as an investor when
you're wrong. And I think if you kind of stand in a row and say, this is my highest conviction idea,
it just makes it that much harder to Britain's point on just like introducing bias into the
equation. And so, and I also think if you kind of invert it, I think it's fine to have an
optionality position that you'd actually don't have that high of conviction on like to Britain's
example on Tesla. Like, I don't think that we have super high conviction that tesla
is going to power law the ev market but is there some probability where they do that and it's you
know worth you know multiples of what it is today sure that's the way that we kind of think about
conviction and again i don't want to piss anyone off that uses the word conviction similar to
moats like it's fine everyone has their own process and we're not trying to like push what
we do on anyone else this is just what has worked for us over time and so one thing we're not trying to push what we do on anyone else. This is just what has worked for us over time. And so one thing we're very careful about is just introducing bias into our process.
And luckily, everyone on our team knows each other well and can call each other out, but
I do want to be a little careful. Well, I have two points to make. This cultural one,
I think, is the second. But let me start first with, at the end of the day, this is a Buffett
concept, this idea that it's better to be approximately right than exactly wrong.
That's another way to
describe this optionality phenomenon here where it doesn't sound nearly as strong to stand up in
front of an investment partnership and say, I have very little conviction in this, but it could
totally work. And if it does, it'll be really big. That's about the best I can tell you right now.
That does not get everyone around the table excited. But in a very Buffett sense, if it works, it's going to be so freaking successful that this is a great price
to own it at. And do I know if this is the right price to own it at? Not at all.
How many versions of the multiverse do we have railroads? All of them, right?
And they're important. And how can we recreate that? We can't. It's impossible.
And so I think you're right. Buffett and Munger say this so easily, so naturally,
and we're just saying it in a much more complicated way.
That's the second point I'm curious about. What are some guardrails that you have in the internal
culture to reward non-conviction? To reward like, yeah, I don't know, but it could work. And if it
does, it could be really big. And here's why it could be really big. Well, the funny thing is the way we view
team. So we think investing is inherently a team sport. It's a terrible solo sport for the most
part. And the way we view team is our role is calling out bias in each other. Now these are
uncomfortable conversations because nobody likes to get their bias called out, but we all know that
bias is really easy to identify in other people and really difficult to identify in yourself. And so by opening yourself up to
having being called out, then your probabilities go up as an investor. So it feels unnatural to
us at this point to say, I have super huge conviction that this micro cap stock is going
to rule the world one day, right? It's like, that would feel really odd. Everybody would be like, are you okay? You feel all right? I think the way we've also
set it up with our framework is we just inherently expect failure, I think more than other public
markets investors might. Like if we put something in the optionality tail of the portfolio, and by
the way, that half the portfolio turns over a lot more quickly than the resilient part of the
portfolio, which makes sense. Like we are going to be wrong a lot. And luckily there's smaller
positions. And so you're not going to torpedo the portfolio, which makes sense. Like we are going to be wrong a lot. And luckily there's smaller positions.
And so you're not going to torpedo the portfolio
as long as the most important thing to do
is just admit you're wrong and move on.
And so I think building that into the culture
where it's okay to be wrong and move on and fail quickly
versus like string ourselves along
on a three-year journey on a tough position.
And so that's one cultural way that we've architected
the way that the team works together that has really helped.
It basically gives yourself a license to take some risks that maybe you otherwise wouldn't
take if you were sitting on a different team or within a different organization.
And do you try and document, here's the reasons why I'm making this optionality bet so you know
you can decide to rotate it out of the portfolio if those reasons are no longer true?
Yes, everything's written down. And actually, Brad, which is an investor on the team,
is amazing at pulling this stuff back up and saying, you said, blah, blah, blah.
He must be really popular on the team. Oh, yeah. He's great. We love Brad. He's
just very good at remembering and then pulling the source data and saying, hey, look, you've drifted.
To your guys' points too, it's not, is their operating margin exactly 22% this or like as a revenue exactly at this run rate we thought it'd be it's like are we
approximately right on the thesis right it's not like we feel like we can predict the future but
you can certainly have checkpoints along the way we call those usually with any stock there i think
there's usually three or four things that really move the stock as we call those key leverage
points on any position and so you can generally check in on those and make sure that we're on
track well one of my big questions are things that didn't quite make sense to me
in reading your paper. Can you talk about what you do with your optionality part of the portfolio
as things evolve in it and how you start an optionality position. There are two copies of the multiverse where this works,
and then X amount of time passes, and you start to have more of a view of which copies,
two out of 10. And now maybe it's like two out of five or two out of three. As it evolves,
what do you do? Exactly. There's two scenarios that you can really see this happening.
A good example is we had Peloton before the pandemic.
You know, in the stock, obviously, when Paraball, like they were a huge beneficiary of work
from home, but it's also just a really dynamic company, you know, that's early in its life
cycle building a brand and a platform.
And so with a company like that, you know, I think it's still early days to call that
business resilient for many reasons, both just like the context of the company of we're
going through a digestion after the 2020 kind of a record year for them and off the charts here, I should say.
So for a position like that, we'll just trim it. And we have this cap of how big in the portfolio
we allow optionality positions to get. It's generally pretty clear how much of this is
something that's a really durable inflection in the business. And sometimes I guess it is both.
I think Peloton is definitely a different company in this version of the universe versus the non-COVID version of the metaverse. But I think
we can't cross it over. Well, this is so different that you trim it. The canonical VC wisdom is
ride your winners as long as possible. The things that are working are likely to continue to work,
so don't sell. But that's not the approach you guys take. Yeah, it's a really good question.
We talk about it a lot because you're certainly, in some leaving money on the table. I think if we're not letting
our compounders really express themselves over time. And so there are stocks we will let them,
we'll own them earlier in their life cycle and let them cross over in the resilient head of
the portfolio. And so we'll do that a few times a year. And I think it does kind of force us to
average up if the company, you know, and actually buy more stock potentially at multiples higher
than our initial purchase. Oh, it's so hard to do.
It's so hard to do, but I think it's actually,
I've thought about this a lot.
This is actually kind of part of our process
where we're kind of forced to do it,
which is really helpful.
Because otherwise it's harder to just look at the stock
and buy more, but we're saying,
we're making this explicit decision
that we're going to take this
from 150 basis point position to 250 basis points.
And so we're going to add capital
because this business has structurally changed
and actually belongs in the resilient bucket of the portfolio. And so there are companies where we've
done that where they're honestly just more mature or they're becoming more of a platform. You can
actually see the network effects starting to hit. And honestly, some of that is a valuation
conversation also, that there are plenty of platform-like companies we might want to own
in the resilient part of the portfolio, but in the current market environment, they're trading at
valuations that we would not consider resilient. And so that's another reason we would own them
as optional positions.
But it's a really good question.
And I think what we try to do
is not make sure that an optional position
ends up in the head of the portfolio,
because that's something we've just learned.
The hard way that if you have a stock
that can have a 50% to 70% drawdown,
and the starting point is a 5% position,
not only does it crush your performance,
but then you're also probably hamstrung
where you've got a stock
that's still a relatively big position and you don't
really want to add to it. And then you just kind of have to take your licking. And so that's
something that we've learned through experience. Yeah. Well, I'm wondering if even just thinking
about this past two-year COVID cycle, you've kind of seen this happen. The stocks that were huge
multiverse winners in the beginning, the Pelotons, the Zooms, and the like. I'm thinking Zoom. Zoom went from, I don't know what, $70, $80 a share to $600 a share,
and then back down to, I think it's at like $280 right now. So you've kind of seen this happen,
right? The optionality played out, that was correct, but then returns pulled back.
We're always looking at what's happening to the range of outcomes. Is it widening? Is it getting broader? Is the prediction becoming safer
or is it remaining narrow? And so with a company like Zoom, it looks a lot to us like a feature.
So now the question is, can it become a product and eventually maybe a platform? Can it develop
an ecosystem around it? We don't know. But to take your example, let's say in the middle of the pandemic, it was sort of a cool
feature.
It was better than everything else on the market, still is.
And then this big ecosystem came around it and it became a full-blown platform.
Well, then the range of outcomes would narrow and the prediction would get safer, right?
And so then that would warrant that becoming a bigger portion of the portfolio.
Valuation is a key piece.
And this is the piece that we get
every day as public investors and valuations, expensive valuations, force predictions.
I have to believe a lot more at 10 times sales than I do at 10 times earnings.
So we're seeing, okay, what is the prediction of the company? And what is prediction the market
is forcing us into? And are we comfortable with that? So we are in an unprecedented investment
climate where everything on a, you know want to, revenue multiples, earnings multiples,
unprecedented highs, any asset you could invest in, be it stocks or farms or crypto,
is forcing you to make predictions. And what I've heard this whole podcast so far is you actively
avoid trying to make predictions. So how do you respond in an environment where there's very little resilience in your ability to
invest without making a prediction and have a margin of safety there?
You just inserted yourself into the weekly NZS meeting, investment meeting, Ben,
I think with that question.
This is most of our dialogue.
Oh, just dial us in anytime.
Yeah, part of this is interest rates, right? We've
never had negative interest rates and then stimulus. And so those effects on all assets,
which are unprecedented. We think about this a lot. We don't know the answer exactly. But
this could get us into our top of semiconductors because there's a few building blocks of the
information age. And we are in an epic shift. We're still early days from the industrial
age to the information age. And semiconductors are the new oxygen in this environment. And so
we look at some of these companies, we think the valuations are actually quite reasonable.
And we choose to sort of bring the portfolio more towards resilience. And these are one of
the ways we do it. We do it multiple ways. Yeah. Like you use the railroad example,
there are 10 out of 10 copies of the multiverse in the future going forward where railroads
are important.
Right.
There are probably also 10 out of 10 copies of the multiverse where semiconductors are
important.
Exactly.
Well, that's an amazing way to transition to semiconductors.
I mean, I was looking for the right hook and, you know, Brenton, I think you bring that
up.
I was prepared to make some joke like, wait, you guys know something about semiconductors? I think TSMC is like a
top three position for you guys. I think your other top positions, Amazon, Microsoft, they use
a lot of semiconductors. And I think Salesforce is probably up there too. And TI is one of your
top positions, right? Yes, that's right. Maybe even before getting into some of the nerdier
semiconductor topics, let's stick with an investment one. What semiconductor companies do you own right now in the name of resilience and which on the leading edge, right? They're making three nanometers and on, and these are the high compute functions. And there's other semiconductor makers that
aren't really dependent on that leading edge. They're more dependent on having the breadth
of a catalog. That would be like Texas Instruments that has 100,000 parts or a microchip.
And so in our top positions, we're more heavily weighted towards the catalog names, these names that the lifetime of a part is 30 or 40 years.
The margins are high.
The growth is pretty good.
There's clear NZS in the business.
They're definitely creating more value than they take.
And they're very hard to replicate, not because what they're doing is so technically hard.
It's hard, but it's because the breadth of what they have would take you decades to recreate.
I've always kind of hoped that Buffett would buy a catalog semiconductor
business. I just feel like those are like just classic Buffett businesses where they're probably
not going to look honestly that different in 20 years than they do now. They'll have higher margins
and be bigger and they'll be selling into, you know, cool electronics that we don't even know
about. But they're also still selling into like water meters and coffee makers and just everything
in your household or in a factory or, you know, anywhere you look, it just has these cheap but
high margin chips in
them. And I guess to answer your question a little bit just on the semiconductor impact on the
portfolio, we have about a third of the portfolio in semis. And that goes across the whole value
chain. Like to Britton's point, we invest in kind of like the catalog, analog microcontroller
companies. We'll invest in a digital company like NVIDIA that's actually in the optionality
tail of the portfolio right now,
just because for valuation and context reasons, we're big investors in semiconductor capital equipment. And those actually are head of the portfolio. We do those as resilient.
TSMC is a resilient position. And then kind of the broader ecosystem like Cade InstaDot and
systems, which you guys brought up in the TSMC episode, that's kind of the key, one of the two
key kind of cat software platforms for designing a chip is also a position.
And so there are kind of more less household name type positions we own as optional positions, like a company like Cree, which is early in silicon carbide, which is an alternative
technology to silicon that's used in electric vehicles, including the Tesla Model 3.
And so that's a classic example where there is some version of the metaverse where it's
a massive platform and silicon carbide, the market goes from being a $1 billion market to a $30 billion market. But I don't know if there's
a 50% chance of happening or 20 or that kind of thing. It's like a little bit of a walk around
the portfolio in terms of semis. That silicon carbide thing is the first time I'm sort of
hearing of it. Is that changing the substrate of the wafer? That's exactly right. Yeah. Instead
of using a silicon, like a bulk silicon wafer,
he used a silicon carbide wafer, which is actually the wafer itself is much more expensive and it's
very hard. It's one of these classic semiconductor processes where there's some black magic that
goes into it. And honestly, most of the people that know how to do this are all in the research
triangle in North Carolina. Cree is the one company that has two thirds of the market for
the substrate itself. And then they will sell the chips. They're the ASML of silicon carbide.
So potentially, then that's the classic optionality, right?
We honestly don't know,
but there's a chance where either this stuff
isn't that hard to do
and they have a two-year lead on their competitors
or it's incredibly hard to do.
And they do become one of these companies
where they're doing something
that no one else in the world can do.
And so that is kind of classic optionality for us.
But it makes electric vehicles and charging
and also like renewable energy and really high voltage applications much more efficient.
And so it's really one of these companies where their core competency has just like all of a sudden the market really needs what they can offer.
And so the market is growing extremely quickly.
You're seeing a lot of activity around from other companies trying to get into the market as well.
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Our huge thanks to Huntress. Let's do a little sidebar if you guys are game that I just thought
of that. I think this could be a really cool case study if you're willing to talk about it about
the NZS process. So you mentioned, you mentioned john that you own cadence as a resilient
position in the portfolio having just done our tsmc episode and go deep dive on the whole semi
you know industry infrastructure you know you mentioned they also have a competitor synopsis
and the two of them it's like a duopoly in the eda space how did you decide to own Cadence? And I'm assuming not Synopsys. Or do you hold both?
We've talked a lot about both of them over the years. We've owned Cadence for nine or 10 years
back to our days at our previous employer. I think on Cadence, it's a few things. I mean,
it's actually kind of a cool story of just kind of like how we even kind of got into the idea of
investing in EDA as part of our kind of process for finding new ideas and just kind of like how we even kind of got into the idea of investing in EDA as part of our kind of process for finding new ideas
and just kind of being up to speed on what's going on in the industry as we follow
is going to like industry trade shows instead of investor conferences.
Like we don't generally go to a lot of like big investor conferences.
And so in early last decade, I used to go to all these chip conferences
and like every presentation, it was like someone from TSMC and someone from Arm
and then someone from either Cadence or Synopsys.
And at the time, Cadence and Synopsys were viewed as these sleepy, crappy companies.
And we love TSMC and we love Arm.
So it's like, let's do some work on Cadence, you know.
And then the more work we did, I mean, both companies are amazing.
Like they deserve a lot of credit.
I think what steered us towards Cadence, one is the management team.
So Lipu Tan at the time was the CEO.
He's actually moving into the executive chair role this year.
He just was like one of the iconic leaders in the SEBI industry over the last 11 years.
He was actually a VC previous to being the CEO of Cadence.
And he was just on the board and had to come in and basically turn around the company.
But he was just so focused on the culture of the company.
I mean, he told us what we wanted to hear, which helped.
But in terms of turning around the culture and really taking a company that was in a
very difficult position in the financial crisis and really like re-architecting the product
positioning of the company, and he's so customer centric. That was how we kind of first got
involved with Cadence. We do think they're taking market share, especially in digital markets,
like where they would be selling to an Intel or an Apple or an NVIDIA. We think they're the
share gainer, but both companies, it's like an extremely high quality duopoly. And so I think
you've been fine either way.
And do you end up doing one-on-one meetings with the CEO at the level of capital that you're deploying?
Yeah, so this was back to our previous firm where there was more than $100 billion of
AUM to deploy.
And technology was a decent chunk of that.
And so Cadence is a great example.
We were actually their biggest shareholder for multiple years.
And so at that point, we had really strong dialogue with them. And I honestly would just
bump into the CEO in airports and at conferences because everyone, some of these aren't that big
of a universe. Everyone's kind of going to the same things, you know? And he's very tall. He's
very tall too. So it's easy to spot. Yeah. Yeah. You're not going to miss him. And he's honestly
just like such a good person too. Like we would talk about life and kids and a lot more than just
our investment in their company. And so it's actually something we think about a lot as NZS is a younger company with less AUM
behind us. And we have a lot of relationships from being in the industry for a long time,
but it's an open question of how often do you really need to talk to? Do I need to talk to
the CEO of a company four times a year? Probably not. Or six times a year, 10 times a year,
like the way we're investing, especially with a resilient company, realistically,
maybe a check-in every year or two, or if there's something obviously that's really critical to the thesis,
we can check in. But that was kind of the way we grew up investing is a lot of management interfacing.
I'm always curious with public market investors, like, how do you think about that? And
it sounds like you do find it very useful to have conversations with management
versus all the information's out there. I would imagine on the
one hand, it's like, well, of course I want to know. I could glean so much more information and
subtle signals from talking to somebody in person. On the other hand, I kind of think, well, I really
care about what you do, not what you say. And I can just see what you do in your filings. How do
y'all think about that? This has changed a lot over the past decade because of course, seeing a
management team talk is easier than it's ever been, right?
It's publicly available.
There are some times when it's helpful.
There are some times when it's harmful.
You know, it probably nets out to be net helpful.
But I'm just thinking of one interaction that we had with Rich Templeton, the CEO of
Texas Instruments in early February 2009, right?
It's a terrible time.
Everybody's unhappy.
It's really rough.
Rich walks in the room, big smile on his face.
How's it going, boys? You know? A recession is a terrible thing to waste. And you're like, what's going on?
I love it.
And so he clearly had a different mentality of, hey, this is where we make all of our returns
over the next decade. We're going to go buy equipment for pennies on the dollar. We're
going to sort of systematically lower our CapEx to sales ratio. And we're going to go get customers and sign them up because we're running our fabs
full out still and other people aren't. And he's just one of these amazing leaders. When he took
the company over, they have 40% of the business geared towards wireless. And Nokia was a massive
customer, the largest customer, and he bled that down to zero. So clearly this embodiment of a company that's built around adaptability instead of these point
predictions. And so people like that are helpful to interface with. But honestly, we probably could
get everything we need at this point without meeting with them as well. David and I were
explaining our research process to some friends the other day. And one of the things that I think that is chronically underviewed on YouTube is presentations
by executives at industry conferences.
And that's a thing that we've relied on really heavily.
Everyone goes and watches Elon Musk give his talk at the Recode conference.
About 358 people watch the YouTube video of Gwen Shotwell
presenting at an aerospace industry event. There's a lot of really interesting information
about the company, probably more so than the big, shiny, public-facing stuff.
That's exactly right. It amazes me. I don't remember the last time I watched
the computer history interview. It was between Chen Sen and Morris Chang.
Oh, so good.
It was under 3,000 views, something like that. I was like, how does this not have 3 million views?
You're like, am I watching the wrong feed? Or how could there not be more views of this?
You know, it's like, this makes no sense. There should be a million views. It's so funny.
We send stuff like that around all the time. I couldn't agree more.
Britain and I were sending some stuff back and forth earlier this week.
It's mostly free too, and from industry trade organizations. And it's a huge resource.
And you also, you do get a little bit of a different flavor if you see a management team
at an investor conference or if they're just even on a roadshow and coming through town,
but you're the fifth investor they've seen that day. It's like you kind of are getting the company
line versus hearing what they're really pitching to their broader stakeholders at an industry
conference is such a good resource. Yeah. When we're doing an episode, just us,
two, three, three plus hour deep dive on a company, we almost never talk to people actually at the company. Maybe we should, but we get all the insights we need from obscure YouTube videos,
books, presentations, you know, white papers. To Britton's point, there's so much material
out on these companies and stuff by management teams these days.
And we do it in our, you know, basements.
I think you guys are onto something with this acquired thing.
We'll see.
Okay, so I'm going to take us into the more technical side of semis now.
Britton, you sent an email when we were batting around topics and you said,
what if we start by talking about the UFO crash that happened in Roswell in 1947,
where we got the first semiconductor technology
and then began to reverse engineer it at Bell Labs? Winky face. It was the first tech transfer.
That's exactly right. I mean, we know exactly when semiconductors came to planet Earth. It
was July 7th, 1947. And then you needed a backstory. When they took the UFO over to Area 51,
they're like, how do we get this in the world without people knowing? And of course,
enter William Shockley, fresh from the war, doing research on radar and submarine warfare,
and he's already got top secret clearance. We're like, okay, where could this come out of? Bell Labs, Shockley? Oh yeah, that's it. That's the backstory. We'll give it to Bell Labs.
That's the whole backstory in semiconductors. I think we're done.
There you go.
Was Shockley... I actually don't know the history. I know he was super involved in World War II,
right? He was, yeah. There's this great book, by the way, called The Idea Factory. It's the history of Bell Labs. So if anyone's interested in the history of the semiconductor, you should
definitely check it out. Not only the semis, but information theory from Claude Shannon, which came around the same time.
Also from Bell Labs, right?
Also from Bell Labs. Yeah. And so, yeah, in the 40s, he took a leap of absence from Bell Labs
and did work actually with the Secretary of War on radar and submarine warfare.
Okay. And so just to keep pushing on this, the reason that this is a plausible story that we got these
from UFOs is because the magic behind how a semiconductor works is so mind-blowing and
unfathomable that you could just sort of experiment your way to finding this, right?
That's sort of what you're going for here.
Yeah, I think that's right.
It really was this, this is overuse, but quantum leap.
They had vacuum tubes.
That's what the switches were
made out of, right? It was one of the few places where there was still pure science being done at
Bell Labs. And they said, we need this switch that doesn't break because we sent a lot of people out
in the middle of nowhere to replace these vacuum tubes. This could go on very long, but there was
some key insights around doping germanium at the time. You're on the Acquired podcast, so it's okay,
Brent. Indulge yourself right there are
these few key insights and it wasn't just shockley it was two other guys bretain and bardeen as well
and so the three of them together came up with these insights and just right after the war some
of it was during but most of it was just after and they figured out oh you can dope this substrate
germanium with different sort of n-type and p-type is what
they're called. And when you run a current through it, it changes. So it actually does
the switching in solid state. And this idea of solid state switching, which of course came about
because of the transistor, and then later on was made to integrate a circuit by Kilbia TI,
is what sort of enabled the foundation for all modern electronic devices.
Over the last decade, I've read the Wikipedia pages for semiconductor, for transistor,
for... I remember the first time trying to look up like, how does a flash drive work? Like,
I've got this cool USB drive and I put it in my computer and I read the whole Wikipedia page and afterwards I was sort of just blinking like, yeah, I still don't understand. This actually
was not helpful. And it is one of these things where most of the time, especially having like a computer
science education, I feel like I can connect every building block to the next layer of
abstraction building block on top of it, where eventually at some point after a few years
of studying computers, you're like, wow, cool.
I pretty much get how we go from physics to operating a operating system on a monitor.
I understand all the building blocks in between.
But somehow, there really is something right around this layer where I never quite can
jump from the physics to how it actually works and then how it manifests in information and
bits on a computer.
I think I just need to go read a few more books.
But it is one of these things where when you sent the alien joke, I was like, you know, you're right that I've just taken
it at face value that this works, but I don't really understand how it works. Yeah. I told
my daughter that this morning and she was like, wait a second, dad, that's really the way it
happened. Right. And I was like, yeah, let's, let's back up. Parenting.
Okay, well, getting tactically here.
So on our episode, I think we did a little bit of a high gloss shine on the story and the current state of the market, especially with TSMC and Samsung.
We basically equivocated them and said they're basically doing the same stuff.
TSMC is one to two years ahead.
Obviously, Samsung has the whole consumer electronics division as well.
Okay, that's TSMC and Samsung. And that was probably too simplistic. So one thing I was
hoping from you guys today is helping us better understand who's good at what between those two
companies. Yeah, well, Samsung is an amazing company, probably not super well understood,
maybe like TSMC, and people know them for consumer electronics and phones, obviously, but
they have 50% of the market share in DRAM and about a third of the market share in NAND. So of course, as we
do compute, we need more memory. We need a lot more DRAM, which is the fast memory on your phone
or device or whatever. They queue stuff up. It's like a funnel, right? If you think of the funnel,
you've got solid state or stuff sitting there and NAND flash moves into DRAM, then actually goes
under the chip with SRAM,
which is really fast funnel, and then it goes into logic to get processed. So Samsung is very
good at making memory. And like I said, they have over half of the market share DRAM, which is
incredible. There's really only three major companies in the world that make DRAM, two are
in Korea and one's Micron in the US. And then in flash, they're big, they also have a decent
foundry business. It's about 17% of the total foundry pie, so not as big. But DRAM and NAND are easier to make
than Logic. And are these branded Samsung products, or are they manufacturing them
as a contract manufacturer? The DRAM and NAND is all branded Samsung,
but of course, everybody uses Samsung. So it'd be next to impossible for Apple to get all the
memory they needed without having a massive relationship with Samsung. So they're frenemies. So the four or eight gigabytes of memory in your
iPhone, that's coming from Samsung. That's coming from Samsung. Yeah, exactly. And so these are
easier to make. They have fewer steps, but still they're very hard. So DRAM takes around 400 steps
and over a month in the fab, working 24-7 to make.
And NAND has a little bit fewer steps than that.
But actually, NAND is getting more difficult because they're stacking it into 3D.
So as you get more layers, it's actually getting more complex.
But logic is still the hardest stuff to make.
These system on chips that TSMC makes.
And of course, it's just imagine making one thing over and over versus making a menu of what if you had to be a restaurant that made every kind of food on the
planet, right? It'd be really hard to be good at all this food. So that's what TSMC is doing. So
that's some of the difference. Samsung is also doing logic, but they have a different business
model, right? They compete with their customers. So it's harder for their customers to trust them,
whereas TSMC doesn't have that conflict. What do you think makes for a more resilient company?
Playing at multiple spots in the value chain such that you compete with your customers
and have optionality, or being super pure play so that you have no strategy conflicts?
I think it depends.
If you're talking about something in semiconductors, and Intel is the classic example of this where
they're more vertically integrated.
I mean, the hard thing about doing that is you have to fight battles on multiple fronts. Intel has to fight TSMC on process technology, which in itself is
one of the hardest things, you know, any technology companies had to do over the last 20 years. And
that's why Intel has been surpassed by TSMC, right? But they also have to fight AMD in their
core kind of like chip design market where AMD enabled by TSMC
is innovating faster than they have in the last 20 years and like really delighting customers and
taking share from Intel kind of real time or you know NVIDIA where they're trying to just basically
marginalize the CPU and make the CPU less relevant so Intel is less relevant so I think that's the
hard thing about being vertically integrated in semis versus being more of just like a horizontal peer play is the needs of Moore's law are just so difficult.
It's hard enough to just do one of these things well and doing multiple of them well makes it harder.
So I generally I think Britain's point on just like the business model difference between Samsung and TSMC is so spot on because I mean, TSMC is like the neutral party that will never, ever compete with their customers. And if you think about the amount of trust that the company has to put in TSMC because they're betting their entire company on TSMC's ability to make this chip for them and to have capacity for them when they need it.
Just like the amount of trust, and this has kind of been Morris Chang's hallmark since he founded TSMC, that that's just something that Samsung can't quite offer because they just have a different business model and they're not willing to, not that they're not willing, they just don't have the capacity to
build kind of a massive foundry. They can't change, right? They're not going to shut down
two-thirds of the company. Yes, exactly. How do y'all think about, especially since TSMC is such
a large position in the portfolio, how do you think about the geopolitical risk? Because we
did this whole big long episode and the conclusion I think we came to was this company's amazing there's like no fault we can find in this except that you know china might want to like you
know take over the land that they sit on this enormous company ending risk yeah even on tsmc's
last earnings call someone asked them like what they thought about taiwan's sovereignty and i'm
just like what a world we live in that like that's an open question that an analyst can ask on an
earnings call like what do you think about China invading your country?
So Britton and I are not like geopolitical experts at all.
I think we spend a lot of time thinking about just the importance of TSMC to the world.
And I do think TSMC is top five most important technology platforms to the world.
Like I think TSMC is more important than Apple.
Like if Apple disappeared off the face of the earth, I actually think it would be painful for everyone that loves iMessage and FaceTime, but it really would not be as big of a deal versus if for some reason,
China moved to seize Taiwan or however it went into play, and all of a sudden TSMC's fabs were
shut down, then the Western world would be set back at least five years, if not 10, just in
terms of technology progress. And by the way, technology progress is driving most of GDP right
now. And so you do read about what's happening with the auto sector and shortages. It's like, you've seen nothing. If you
think shortages kind of from the way that auto guys manage their inventory and kind of just like
the classic post-recession semiconductor shortages you always get, you go from there to what would
happen if TSMC, if Taiwan sovereignty was in question and TSMC stopped making wafers for some
period of time.
I just think the impact on the global economy would be extremely painful. And that brings you to the logical conclusion of, you know, hopefully the US and the West would move to protect TSMC at
all costs, or at least get the people out of there. I mean, I guess I shouldn't joke about it,
but it wouldn't be totally dissimilar to what's happening in Afghanistan, where I think you would
just airlift as many TSMC folks out of there as possible in a short period of time. But then you have no fabs there to produce. I
mean, TSMC fabs a quarter of the digital chips made in the world right now. And so it would be
a lag of multiple years between when you get those people out and when you can actually start making
wafers again. So it's a very complex topic. I think another way to think about this is just
an ecosystem perspective. So TSMC as a company is very valuable, but it's not super valuable without ASML and
LAM and AMAT and KLA, right?
So when you think about the ecosystem of semiconductors and ASML, of course, is not valuable at all
without TSMC and Samsung.
There are this handful of companies, call it 15-ish, maybe more, that if you think of
them as one super company, which is kind of what they are, it's like a super organism,
right? Kind of like my bees are a super organism.
It's like an ecosystem, you mean? Maybe like a complex adaptive system?
It's like a complex... Yeah. So predicting the future is really hard. So anyway, yeah, if you think of it as a super organism, this is probably the most important super organism on the
planet. If it's not, it's certainly one of the top most important. So could you recreate that
elsewhere in the world? You absolutely could if you had access to the rest of the top, most important. So could you recreate that elsewhere in the world? You
absolutely could. If you had access to the rest of these pieces, which in the West, we do, it would
just take, to John's point, a long time. And that's why people are sort of saying, maybe we should
take some risk out of this place. And, you know, ASML calls this semiconductor sovereignty. We're
building this fab, of course, in Arizona, this five nanometer TSMC fab.
But it wouldn't be a stretch to think that they will be built again in Europe.
This happened before.
But of course, when technology reaches a fairly stable state, you want to optimize around
efficiency.
So you get these horizontal type models, right?
I remember when Apple bought PA Semiconnector, I was on record going, oh, this is the stupidest thing ever. Qualcomm makes these really good Simuconnectors.
Broadcom makes them. TI makes a great application processor.
And this is the origin of you deciding that you don't know the future and so you should.
Yeah. What I said was the dumbest thing ever. That's for sure. But when technology changes,
I just didn't have a concept for the smartphone. So technology was about to change quite a bit.
And in that change, you really want to be vertically integrated because you're not
pushing efficiency.
You're pushing sort of product technical ability.
We see this with Tesla as well, vertically integrated.
So can you imagine Ford having an AI day?
That's just kind of funny, right?
Well, they could have something then they would call it an AI day.
Right. I can see that happening yeah oh man mkbhd just did this awesome thousand mile road trip with
a tesla a ford mach-e mustang and a gas car and it was just amazing like look the mustang like
it's a good car it's really good but we couldn't complete the road trip because we went to a charger you know it
directed us to this charger the charger was broken then we went to another charger well that was like
you know it charged at a rate of like a mile every five minutes or whatever so then we like got
stranded and the tesla was like yeah we were half an hour shorter on the trip than the gas car
you know it directed us to the charging networks it told us which stall to go to you know all this stuff so i guess like the full circle question or answer to your question
on like how we even incorporate the geopolitical risk on tsmc is i mean i guess it'll never be our
like a 10 position for that reason as there is always this risk but i also i think it's important
i mean that my like kind of cheeky answer that's probably not fair as if if there is enough conflict
between china and taiwan that tsmc that they're like kind of you know business sovereignty or is under
concern or people are worried about them being nationalized by china or something the whole u.s
market is going down it's not just tsmc i mean i think they would be kind of like the epicenter
but it's not like this is going to happen in isolation and so at that point and who knows
if there could be you know more of a more world war three type global conflict coming from that
and so I kind
of say at that point, the performance of our TSMC common stock is probably not my biggest concern
that day. Okay, so let's say TSMC is a resilience position. Let's say there is a black swan event,
which the fact that we're all forecasting it and so is everyone else means it probably isn't that
black swanny if their sovereignty gets challenged. So the point of optionality positions
is to benefit from these black swan events. Do you guys have any ideas on if the whole
US market went down in this situation, what could you hold that would hedge it?
The obvious hedge would be like defense stocks, but we probably wouldn't own them because of,
I just don't think those are very high NDS businesses, but but honestly that would be the one pocket of the market that probably would fare
okay but britain i didn't mean to interrupt you no no i was just gonna say if you got to rebuild
all these fabs somewhere you're gonna need a lot of equipment and so you're leaving 20 years of
equipment in the ground somewhere and you've got to recreate that that would probably be
pretty defensive against that outcome there's also i, I guess, owning China tech companies.
I mean, I guess it's questionable.
Like if all this is really going down,
like I don't think China's-
My ADRs are probably going to stop working.
They haven't stopped working already.
Do you have any China tech position,
you know, Tencent or others?
We don't.
We've owned China tech for a long time,
but when we put this portfolio together
at the end of 2019, it just looked sketchy to us, honestly. I don't know,
for lack of a better word. And so we own zero China Tech. We just thought we don't have to
be there. There's other places that are very interesting. And it's a question of ownership.
We're not really sure who owns these companies. And through the ADR structure and the VIE structure,
we know we don't own them. So we just set out. Yeah, makes sense. Well, I want to come back to some
more technical questions. Another thing that I think we kind of glazed over in our TSMC episode
is the current state of Moore's law from a literal perspective, but then probably more interesting,
the current state of the spirit of Moore's law. And I was wondering, maybe John, let's go to you. Could you give us a little bit
of a download on like, does Moore's Law still work at least spiritually? Yeah, I'm glad the way you
framed it that way, because it is kind of like a religious debate and people much smarter than me
in the semi-industry are on like both sides of is like the true Gordon Moore, Moore's Law still
holding up. I think for the spirit of Moore's law, we still have, we have visibility probably for the next 10 to 15 years. And to be honest,
that's like the industry never has more than 10 to 15 years of visibility. I think obviously the
depth of Moore's law has been pronounced for a very long time. But I think that's one thing to
keep in mind is there are a lot of things out there that's going to keep us driving down Moore's
law. And so one thing that you guys covered well in the TSMC episode is the implementation of EUV
systems from ASML. And they actually are allowing us to shrink the transistor, kind of the fundamental
building block, you know, two-dimensionally. So it actually put more transistors into a chip.
And so ASML is kind of on record saying they think that EUV will last about 15 years.
In terms of they'll allow us to keep doubling the number of transistors on a chip every 18
months for 15 years, or just it will be an effective way of getting any performance?
Yeah, I think it will be an effective way to drive performance and like drive shrink, basically, is the way the industry kind of frames it is you'll be shrinking the transistor to pack more performance into a chip.
But I think the broader point you hear from the industry a lot is this concept of more than more, which is kind of a cheeky pun.
But yeah, there you go. semi guys they're real real real hoot exactly
so geeky but so the broader point around you know where more's law is going now is it's not just
about the transistor it's really about the package And so you're seeing a lot more innovation,
not just in like,
can we put like more transistors onto one gigantic chip to drive more
performance?
You can actually split up,
you know,
chips into multiple chips called chiplets,
which AMD is doing.
And this is a big part of Intel's future strategy actually also.
And so having like,
you know,
one gigantic like GPU that you would buy from Nvidia,
you can have four smaller chips and you can kind of like stitch them together to drive more performance. And so that's
another way that we're going to get a lot of benefit from Moore's law. And then actually,
one thing I skipped over on the transistor side is we are moving to a new transistor architecture,
either a two nanometer or three nanometer, depending on which company you're talking about,
to a gate all around architecture. Previously, we were on FinFET, which has been around since,
I guess, for the last seven or eight years. I don't know the exact numbers, maybe 10.
There's line of sight into from here, more gate architectures, different materials. And then when
we get to like the mid 2030s, we'll kind of see how it goes. But it's just it is amazing. I was
actually at a virtual chip design conference this week, earlier in the week. And there's so much
focus, not just I guess, on this like packaging idea, but even like if you extract that one more layer from that,
it's about system level performance. And if you look at what NVIDIA or AMD and kind of like the
leading digital companies are talking about, it's can you make more processors and actually like
stitch them together into a cluster with some sort of proprietary interconnects. They're really
thinking more like computing companies and just like chip companies now. And so that's a big
change. But all of these transistor level innovation, package level innovation, and then system level
innovation, I think we've got a pretty good line of sight into the spirit of Moore's law
continuing at least through kind of the mid 2030s. And so it seems like with the sort of creation of
the system on a chip, that at least let's just talk about the iPhone, because it's the one I
understand the best. Apple became the aggregator
rather than the old days of I'm going to go build my computer and I'm going to go buy a motherboard
and I'm going to buy a GPU and I'm going to slot it in the PCI slot and blah, blah, blah.
Apple basically says, well, we've designed this logic board and we've designed most of the chips,
the important chips, and we've situated them together. TSMC manufactures it. They do all
the packaging,
so you have the bare metal to bare metal packaging of these things, so we don't need to run it
through these buses that have low bandwidth to get information from one piece to another.
Let's keep playing that out a little bit based on everything you know. Where in the value chain do
you think the point of aggregation shifts to over time, where who gets to own, where do we put all this stuff together,
and I get to capture a lot of extra margin because I'm the one putting it all together.
I think that's the interesting thing about the semiconductor ecosystem is actually,
there's a lot of people capturing margin, and they're capturing really high margin. So
this is the sign of a healthy ecosystem, right? There's not one company that's making all the
money. throughout the whole
chain. We've seen margins come up. And here's a good trivia question. Who has higher operating
margins, Texas Instruments or Microsoft? Because I ask it, you know the answer is TI.
But it's not really appreciated how good these businesses are.
That's shocking.
Right?
Yeah. Especially because TI, the core business,
is not the leading edge digital processors that TSMC is doing. It's the commodity stuff, right?
I think this was Rich's key insight. He said, okay, we're doing all this leading edge stuff.
We're fabbing at TSMC. And what if we just trickle that business down to zero? They try to sell it.
No one wanted to buy it. And boring is beautiful.
And so you look at TI's end markets,
two thirds of which are industrial and auto.
And I guess it's a tech company.
They make chips,
but man, it seems a lot like an industrial company too, right?
Yeah, I think you can make the same point
that you made on TI on NVIDIA,
like the fabulous business model.
Really, I mean, it's like a software company.
It's like NVIDIA has got close to margins and like you know low 40s operating margins like it really
with very little cyclicality because tsmc offloaded all that cyclicality right so it is just like
one of the best business models besides i would say enterprise software it's one of the best
business models in the world and so tsmc is the enabler of that but i think britain's point is
spot on you're going to see kind of in this future world one of the things that's kind of cool is it takes the whole ecosystem to really drive
kind of the future of moore's law like it used to be just about asml needed better litho tools and
like intel would use them and like shrink the transistors and we just kind of like brute force
ourselves down moore's law and now all this advanced packaging needs litho advancement from
asml but it also needs improvements from the other equipment guys like lamb research or applied
materials or tokyo electron because you need deposition and etch steps to build these advanced packaging and you
know multi-die packages for kind of the advanced packaging applications you also have all this
off-the-shelf ip they're getting from companies like arm or from cadence or synopsis that i mean
part of what apple does to your point ben is they're really just an aggregator like they buy
you know ip blocks off the shelf a lot of what designing a chip is about is just is just buying
a lot of individual IP blocks
and aggregating them.
And so the great thing about it is like, since Moore's law is really freaking hard, everyone
in that ecosystem does really well.
And then I think TSMC sitting in the middle of it will obviously do very well because
they're driving a lot of the innovation also, and obviously are the key partner for a lot
of this.
Real quick on TSMC.
I think we glossed over this on the episode because we weren't deep enough to understand
it.
My sense is that the open innovation platform that they've created is really important.
And it's kind of what orchestrates all of what you're talking about here, that it really takes the village of the whole industry to push things forward.
Now, is that true?
What is that and how central is TSMC's open innovation platform to all of this?
That's exactly what I was going to say.
I think it's really true. And there is no GitHub to the semiconductor IP ecosystem, right? The closest
you get is kind of the TSMC open alliance. And there's pockets of it elsewhere. The EDA guys
have a ton of IP as well. And of course, as you make these chips, you need to emulate them to see
if they actually work, hopefully before you put them in the fab, because that's really expensive.
So all of these things really play together.
And so when you think about how Intel was doing this for a long time, it was a closed
system.
It was Intel's way, Intel's process flow.
And TSMC said, oh, wait, let's form an alliance with everyone, because this is really going
to take everyone to keep driving this forward.
And this open architecture,
or this open approach has really won over. One thing that's always hard for me to understand is how hard it is to do each layer of the stack. And by that, I mean, wow, it seems like the ASML
guys create a pretty unbelievable machine. And they have a lot of services associated with that
machine. Like they're even in the TSMC factory helping to assemble and operate these things.
And then I was scratching my head thinking, well, could ASML just become TSMC? Could they
just operate their own equipment? And then I dove down the other side of the slope and I was like,
well, who makes the stuff that's important to the ASML machines. And I was like, well, who makes the stuff that's important to
the ASML machines? And I was like, what is this Trump company? And then of course,
you go on the Trump website, which let's just let the name lie for a moment here.
And they make this unbelievable laser. And they've got this crazy video on their website
that shows off their laser. And I'm pretty sure what they're showing me is actually the magic of the ASML EUV machine. And I'm like, well, shoot, why can't the Trump company just do what
ASML does and then also do what TSMC does if they are the only ones in the world who can make this
unbelievable laser? Can you guys shed any light on, is that ever going to happen? Could it ever
vertically integrate? First of all, the videos of the simulations of the laser in an EV system on the Trump
website are like so freaking cool.
They're amazing.
Yeah.
Actually, I hadn't seen them until recently.
And I've heard so many times that like 50,000 pulses a second drops of multitin, the whole
spiel from ASML, which Ben, by the way, you did a very good job on the TSMC episode.
I was doing my best John Bathgate impression.
I could tell you were excited to do it.
I think like multiple times you're like,
can I do the ASML thing now?
But anyway, a few things to think about.
One is there's so much innovation.
So the laser itself actually is 10 tons,
but an EUV system is 180 tons.
So there's a lot of other equipment in there
that's not just the laser.
And actually I was trying to find this from a dollar value
and I didn't track it down,
but I'm sure that that number is out there.
ASML's partnership with Zeiss, the lens company, is also really special.
And I guess Trump and Zeiss could try to partner to, I don't think they have any ambitions
to do this, but they could try to partner together to kind of circumvent ASML.
But like, you know, the lenses that Zeiss is coming up with are literally the most uniform
lenses designed, you know, in the history of the world.
And some of the metrics that they throw out on that are incredible.
And I think one of the things that's unique about ASML is they shipped the first EUV tool in 2010 to TSMC. And EUV didn't even really start high volume. And this was after
a decade of R&D already. But then they didn't start high volume manufacturing on EUV until 2019.
So they had almost a decade of learnings in TSMC's fabs on how to get these things to actually work, how to get the throughput to levels where the economics actually make sense.
And so there's actually this really cool conference called SPIE every February where all of ASML's
customers come together and basically give feedback on EV and kind of give the updates
on where they're at. And so ASML lived through 10 of those with all the feedback, not just from
TSMC, but from all their ecosystem partners, right? And so I just feel like the learning cycle that ASML has been through, there's just so much
more innovation in addition to the laser and the lenses. But it is, I mean, the lens is a really
critical component. I mean, ASML actually bought a laser company in 2012 called Symer. And I think
they actually had like an internal laser bake-off between Symer and Trump. And I think Trump won for
EUV, which is also kind of a funny,
you know, trivia question. Wow, fascinating. Okay, so the answer is they all add a ton of
value on top of the previous layer of the stack. And like a lot of things in the tech ecosystem,
there's fractals on fractals, right? It's like you say, okay, what's the most important part of this
ASML tool, right? And there's a fractal down and then like, you know, you keep going. But it's
really this ecosystem approach that makes sense. No one can do all of this. It's just way too hard.
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Vanta.com slash acquired. Great. Well, John, I know you have a ASML story that
you want to share. So I'd love to hear it. Yeah, I think this is a really cool story of
like how ASML came to be. ASML and so strategic to the world is, you know, they had one competitor,
which is Nikon in the lithography market. And then Nikon gave up on the market kind of coming
into the last decade. And so I think TSMC and Samsung and Intel kind of looked around and realized like we're
betting the future of Moore's Law on this one company, ASML, which at the time was like
kind of a sleepy Dutch company that had like a $20 billion market cap.
Like no one really knew who ASML was in 2012.
And so it was so unique is that Intel and TSMC and Samsung partnered and actually bought
25% of ASML to inject capital into ASML to develop EUV systems.
And that started really like the iteration path of developing EUV to get EUV to where it needed to be for high volume manufacturing by the end of the decade.
And so it's just such a cool story of like the ecosystem coming together.
And everyone in the semi-industry knew how important ASML was at the time, but the world didn't really understand that.
And so getting ASML where they needed to be on EUV obviously is now enabling Moore's law for the next at least 10 years.
And is it right that they've all largely divested at this point?
They have, yes. Yeah. I mean, they honestly should have just held onto it. I mean,
it would be not immaterial. So especially like Intel's enterprise value. There's so many stories
like that. Like you guys covered the ARM origins, like all these like major ecosystem players have
all like had, you know, stakes from other companies at various times,
which is just kind of a funny way
that the semi-industry has worked.
I couldn't find in our research,
how much of TSMC does the Taiwanese government
currently own?
Because they started by owning 50% of it.
That's right.
I looked for that too recently,
and I couldn't find it.
I want to say it's still in the 20s, but I could just be making that number up. I thought I actually was going to
say 20 off the top of my head, but maybe don't quote us on it because I don't know if that's
true or not. Wild. Could you imagine if the US government owned 20% of Intel? I know, right?
Or Apple. They owned a lot of Ford at one point. That's true. Yeah, and sometimes people ask,
well, why can't just another company buy TSMC?
Well, it's a national champion.
The government owns a bunch of it.
It's just impossible.
Right.
Some things don't have a price at which they are for sale.
Exactly.
All right, John, you had one other trivia question for us.
Yeah, we were talking about, I kind of made the point that fabulous chip companies are kind of the best business models in the world. I think one of
the things that's so cool about TSMC is if you just look at all the value they created, like
NVIDIA is a half a trillion dollar company and then add up their next few biggest customers,
like Qualcomm and Broadcom and AMD, that's like another half trillion. And then I was trying to
think of like their aggregate value creation. And so I was trying to think about, I mean,
Apple is obviously the biggest customer. And so I think in an acquired episode about the top 10
acquisitions of all time, you guys assigned a value to PA Semi and how much of kind of like
Apple's differentiation is driven by semiconductors. And so if you guys know that off the top of your
head, that'd be my guess for kind of like Apple's contribution to the TSMC value creation for the
world, if that abstraction all makes sense. Oh man, that was the most hand wavy part of that whole
analysis. I kind of feel like we ascribed half of Apple to Next, and then like 10% to PSMI or
something like kind of arbitrary. We were literally carving up the Apple.
Well, here's the framework. Here's the reason it's hard. It's because the notion of necessary but not sufficient is really hard to frame into a percentage. Apple would be worth
zero if they didn't acquire Next. But does that mean that Next is responsible for 100%
of the value of Apple? Absolutely not. So what percentage do you assign it? It's tricky.
Yeah, that'll make sense. I actually don't know that the number you guys use, I thought it was 25% off the top of my head, which maybe that's
a good rough number that, you know, Apple's contribution is, you know, another half trillion
dollars to the TSMC value creation story, but you get the broader point, right? It's just,
it's like trillions of dollars of market cap that TSMC has created for their partners,
which I think is just so cool. Yeah, it's amazing. I mean, it truly,
you know, meets the Bill Gates line of the definition of a platform that they've created way more value for their customers and their ecosystem than they've
captured for themselves. Yeah, which is so cool because it's obviously not like a traditional
internet or e-commerce platform the way like most of us are SaaS platform, the way we think about
platforms, right? It's just like a manufacturing platform, which is just so unique.
There's one point that you're getting at here that is part of the white paper and what we discussed earlier, which is around sort of leaving money on the table for your customers and leaving money on the table for your partners. If you as the management team or if you as an investor who deeply understands the company
knows that in a way that other people outside the company can't underwrite,
then you can do a much more intelligent job valuing the company than anybody could with
a brute force metric such as industry average earnings multiple.
Because if you actually understand,
well, our earnings could be this if we wanted it to, or our growth rate could be this if we
wanted it to, but we're making strategic trade-offs to not do that, then you actually have a unique
ability to underwrite the company's value and thus actually more of a margin of safety or more
of a willingness to pay up than anybody else.
And so it's interesting being deeply studied about these companies where you do know
that they're sort of leaving something on the table for other participants
that you can be more comfortable making an investment than other people can.
I think that's a really insightful point, Ben.
The thing it gets to for me is duration of the asset, duration of the growth.
So when you leave money on the table, what you're doing is you're creating goodwill for
your customers and you're buying the company duration, which is oftentimes the way to maximize
total value, right?
So when I think back about Ho talking about Roblox, he was effectively saying, we just
really understood how big this ecosystem could become. And we kept
seeing the value accrue, and then it moved beyond our original investment case. And therefore,
we became more comfortable investing more money over time. And what people get wrong, oftentimes,
is this duration. Because duration, if you can go 15%, back to your earlier example,
it's extremely nonlinear if you can keep that flat, right? All the value comes in the tail.
And so we just aren't very good at thinking like that. Our brains don't work in that nonlinear fashion. But when you create more value than you take, and if that's your driving
factor, and you want to take a lot of value, it's a hard task because you have to all the times
think, oh, wow, we want to take a lot, but we need to create even more. How do we do that? And then of course, that buys duration, which is a feedback
loop, sort of the happy feedback loop, if you want to think about it that way. I think Morris
Chen got this very early on, and that's what created TSMC into such a great company.
It's so good. We touched on this a little earlier, but just to double underline,
one of the things about you all and your ethos that
was kind of an aha moment for me is flat growth versus hyper growth. Flat growth extended over
time will beat short-term hyper growth. You mean the derivative of being flat, right?
That a company grows at the same rate every year. If you grow 20% a year for like 50 years,
like TSMC, you will destroy every Groupon out there.
So what you need for that is a negative feedback loop, right? So the negative feedback loop
for TSMC is, I'm going to come in, I'm going to take what used to be the special sauce of
your business, and you're going to trust me to do that. That's extremely hard to do, right?
No one wants to do that. But then the more it happens, eventually there's a game theory to it.
Everybody has to do that eventually because it works so much better. So you're never going to
get 100% growth. It's impossible. But you might get 20 for 30 years, which I think the number
that you guys said in your podcast was 17.7 for 30 years or something like that, which is just
incredible to me. And when you say negative feedback loop, you basically mean a governor
on the growth, like a natural force in that particular business that makes it so you can't have ludicrous
Uber style hyper growth.
And it ends up being long term good for the company to have that growth governor or that
negative feedback loop.
That's exactly what I mean.
So when we think about ASML, right, they can ship everything they can make, but they just
can't make anymore.
It's impossible.
Right. So there is a governor on the growth wow well that's a great place i think to leave
especially the semis discussion and most of this episode that it's so counterintuitive but the way
that you've sort of framed up why it is long-term good for an investor to want slow methodical
governed growth it's just very different than
a lot of the things we talk about on this show. One of the things we think about sometimes is
we're looking for companies that can double in five years and double again the five years after
that. And all that means is we're looking for companies that can grow 15% over a decade,
all else equal. Easier said than done.
Easier said than done. Much easier said than done. I will just say one thing about our days.
We get a lot of questions of, well, how do you do this at a small company versus a big company?
And part of it goes back to what we were talking about earlier. It's easier to do research in
these companies now than it's ever been. But the second piece of it is, yeah, there's more details
we have to deal with at times, but how much extra time would you have in your regular job if you
only had two meetings a week and you never had to worry about office politics? My guess for most
folks is it's about 20 hours, right? And so then how would you use that? Well, we just use it for
unstructured research time. And the way we think about it is we can wander around not knowing what
we're doing and waste 90% of that time. And 10% might be really useful and 1% might be absolutely watershed.
And that's really all we're looking for.
But you can't ever just get to the 1%.
You have to wander around to find it.
And so that's how we really structure our days.
And Brendan, that's why you run
for like 24 plus hours straight.
And that's why I run and that's why I keep bees.
It's all the same thing.
It's where your best investment ideas come from.
That's right.
I do think this idea of like linear time versus nonlinear time is really interesting.
And some Britain and I talk about a lot because like the linear time, it's like it's probably
very similar to you guys getting ready for your next episode.
It's like you're going down the rabbit hole on one topic.
And we do spend time doing that, obviously.
But then we just have so much extra time to like just be out there trying to connect dots.
And so you never know when you're going have that aha moment or that that insight but having you know
as much opportunity for that as possible is kind of how we've intentionally tried to structure our
time i love it well we could spend another hour on how you structure your time i was actually
wondering maybe um maybe we can get oh what are both of you if you'd be up for it to join our next
lp call and i'll chat about it i'm sure folks would love to pepper you with questions and hear about how you spend your
time.
That'd be super fun.
We always learn from those questions.
So we'd love to do it.
Awesome.
Well, Brenton, John, where can folks find you on the internet?
You can go to nzscapital.com.
We do try to write a lot.
We put it all on the internet immediately.
It is everything that we use internally. Nothing's held back because we know when we put it all on the internet immediately. It is everything that
we use internally. Nothing's held back because we know when we put it out there,
we're going to get more value back. So this is our way of trying to create more value than we take.
Our partner, Brad, also writes a newsletter every week. And so if you want to see how he
spends his time, you can sign up for the newsletter on ncscapital.com. It's called
Sit All Week. It's just Brad's process of sitting all week and what
he thinks about. And Brad is, he's like a microprocessor. He's literally the smartest
person I've ever met. And the way his brain works is incredible. And so if you'd like to
sign up for that, you can do that there as well. Great. And on Twitter, I think you both have
Twitter handles. That's right. The whole team is on Twitter. NCS Capital has a Twitter account.
I'm bjohns3. Brad is at bradsling. And John is at jbathgate. Great. We'll link to all those
in the show notes. Thanks for having us, guys. Thank you. All right, listeners, hope you enjoyed
our conversation with Brinton and John. If you found it to be, frankly, as eye-opening as I did,
feel free to share it with a friend. If you learned something new about complexity investing
or their barbell strategy or resilience and optionality, I'm sure you can think of someone
that you'd want to share that with. So feel free to do so. If you are not already a member of the
Acquired Slack, come join us, acquired.fm slash slack. Some of the best discussion you'll find
on the
internet about lots of things that you care about. If you're not an LP, you should become one. It's
a way to get closer to what David and I do here at Acquired. We have these awesome LP calls once
every month or two. We have been on a tear recently with great LP exclusive content. We just dropped
about a month ago now, a great interview with Ronil,
the CEO of Audius, which is the largest crypto application, Web3 application out there with over
6 million users. And then just before this episode, we dropped another sort of Web3 episode,
this time on Web3 marketplaces centered around brain trust.
With Adam from brain trust. Wow, that one was a
blast. Yeah. So if you're Web3 curious, or maybe you're Web3 skeptical, these are fun episodes to
listen to because they're super non-DeFi, non-crypto use cases. Yeah, they're like
real-world applications. Yeah, which of course we wanted to dive in and
tell those stories you know what i'm curious about after this episode and i feel like you
know the universe works in funny ways right like i think everything's sort of aligned that a bunch
of stuff happened all at once is the santa fe institute and complex like everything we talked
about on this episode it just seems like such an amazing place i've always wanted to go to santa
fe period i've never been there but to go go take a class there, we should do something. Because before this, we had our Michael Mobison episode.
He's the chairman of the board there. Kindergarten is actually investing in a company that the CEO
is also a board member there. There's too many stars aligning. We got to go.
The universe is telling you something, David.
I think it is. I think it is.
Well, with that, we will see you next time.
We'll see you next time.
Who got the truth?
Is it you?
Is it you?
Is it you?
Who got the truth now?