Conversations with Tyler - Marc Andreessen on AI and Dynamism
Episode Date: March 13, 2024In this interview, recorded at a16z's 2024 American Dynamism Summit, Tyler and Marc Andreessen engage in a rapid-fire dialogue about the future of AI, including the biggest change we'll see in the nex...t five years, who will gain and lose status with the rise of LLMs, why open-source is important for national security, the best and worst parts of Biden's AI directive, the most underrated energy source, what the US can do to speed up AI deployment, what gives Marc optimism about Gen Z, which thinker helps him make sense of American capitalism, and more. To hear more conversations from a16z's American Dynamism Summit, please go to www.a16z.com/adsummit. Read a full transcript enhanced with helpful links, or watch the full video. Recorded January 30th, 2024. Other ways to connect Follow us on X and Instagram Follow Tyler on X Follow Marc on X Sign up for our newsletter Join our Discord Email us: cowenconvos@mercatus.gmu.edu Learn more about Conversations with Tyler and other Mercatus Center podcasts here.
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Hi, CWT listeners. I'm Sam, one of the producers of the show. Today we're bringing you a bonus episode featuring a recent interview Tyler held with Mark Andreson on AI.
This interview took place in late January at A16Z's 2024 American Dynamism Summit in Washington, D.C.
To hear more conversations from this event, visit A16Z.com slash AD Summit or use the link in the show notes below.
Now, on to the show.
Conversations with Tyler is produced by the Mercatus Center at George Mason University,
bridging the gap between academic ideas and real-world problems.
Learn more at Mercadis.org.
For a full transcript of every conversation enhanced with helpful links,
visit Conversationswithtyler.com.
Hello, Mark, if your entrance music were to be Beethoven, which symphony and why?
For those of you who do care, know who Tyler Cohen is,
this is how his podcast start.
This is how he intimidates his guests into submission.
First of all, I just wanted to thank everybody for being here with us today.
We're really grateful that we're all able to spend time with us, and hopefully it's been useful.
Second is, I'm going to get new business cards printed up that say you either know who I am or you don't care.
Or both.
Or both.
Well, let's see.
I mean, I guess we have to rule out Beethoven's Ninth Symphony because that's the official music of the European Union.
Is that right?
That's correct.
That's the official anthem of the European Union.
That's right.
Which is just such a terrible mean thing for them to do.
It's such a great piece of music like that.
We should lodge a formal diplomatic protest.
I guess probably Beethoven's fifth in retaliation.
I would peg you as the fifth.
Yes.
Now, how will AI make our world different five years from now?
What's the most surprising way in which it will be different?
So there's a great breakdown on adoption of new technology
that the science fiction author Douglas Adams wrote about years ago.
He says any new technology is received differently by three different groups of people.
If you're below the age of 15, it's just the way things have always been.
If you're between the ages of 15 and 35, it's really cool
and you might be able to get a job doing it.
If you're above the age of 35, it's unholy and against the order of society and will destroy
everything.
AI, I think so far as living up to that framework.
What I would like to tell you is AI is going to be completely transformative for education.
I believe that it will.
Having said that, I did recently roll out Chad GPT to my 8-year-old.
I was like very, very proud of myself because I was like, wow, this is just going to be
such a great educational resource for him.
And I felt like, you know, Prometheus bringing fire down from the mountain to my child.
And I installed it on his laptop and said, you know, son, this is the thing that you can
talk to any time and it will answer any question you have. And he said, yeah. And I said, well,
no, this is like a big deal. It answers questions. He's like, well, what else would you use a
computer for? And I was like, oh, God, I'm getting old. So I actually think there's like a pretty
good prospect that like kids are just going to like pick this up and run with it. And I actually think
that's already happening, right? Chat GPT is fully out, you know, and barred and bang in all these other
things. And so I think, you know, kids are going to grow up with basically, you know, you
could use various terms, assistant friend, coach, mentor, tutor, but, you know, kids are going to
grow up in sort of this amazing kind of back and forth relationship with AI. And, you know,
and anytime a kid is interested in something, if there's, if there's not a teacher who can
help with something, or if they don't have a friend who's interested in the same thing, they'll be
able to explore all kinds of ideas. And so I think it'll be great for that. You know, I think
it's obviously going to be totally transformative in fields like warfare, and you already see that.
You know, the concern, quite honestly, I actually wrote an essay a while ago on sort of why AI
won't destroy all the jobs.
And the sort of short version of it is because it's illegal to do that because so many jobs in the modern economy require licensing and are regulated.
And so, you know, I think the concern would be that there's just so much sort of glue in the system now that prevents change.
And it'll be very easy to sort of not have AI healthcare or AI education or whatever because literally some combination of like, you know, doctor licensing, teacher unions and so forth will basically outlaw.
So I think that's the risk.
If we think of AI and its impact in sociological terms,
large language models, who will gain in status and who will decline in status? And how should
this affect how we think about policy? Yeah, so first of all, it's important to qualify sort of
exactly what's going on with large language models, which is super interesting. And kind of this
thing has happened that you kind of read about a lot in the press, which is kind of there was this
general idea that there would be something called AI at some point. And then large language models
appeared and everybody said, aha, that's AI just like we thought it would be. And then everybody
sort of extrapolates out. And that's true to a certain extent. But the success of large
Zango's models is very unexpected in the field.
And actually the origin story of even ChatGPT is,
this is not what Open AI actually started to do.
They started to do something different.
And there was actually one guy,
name is, I think, Alec Radford.
And he literally was like off in the cornered OpenEI,
like working on this in like, you know,
2018, 2019.
And then it just, it basically was this, you know,
was this revolution building on work that had been done at Google.
So it was kind of this very surprising thing.
And then it's important to sort of qualify, like,
how it works, because it's not just like some sort of robot brain.
You know, what it is is,
is you basically feed essentially, ideally all known human generated information into a machine,
and then you let it basically build a giant matrix of numbers and basically correlate everything.
In a nutshell, that's what these things are.
And then basically what happens is when you ask it a question, or if you ask it to, like,
you know, make a drawing or something, essentially does a search.
It does a search across, you know, basically all of these words and sentences and diagrams
and books and photos and everything that human beings have created.
And it sort of tries to find the optimal kind of path through that, and that's how it sort of generates
the answer that it gives you.
So it's philosophically, it's kind of this really profound thing, I think, which is it's like
you as an individual using this machine to kind of stare at the entirety of the creation of all human
knowledge and then sort of have it played back at you.
And so it sort of harnesses the creativity of, you know, thousands of years of human authors
and artists and then sort of, you know, derives new kinds of answers or new kinds of images
or whatever.
But fundamentally, you're sort of in interaction with our civilization in a very profound way.
In terms of who gains and who loses status, there's actually a very interesting thing
happening in the research right now. There's a very interesting research question for the impact
on job skill, you know, for example, for people, you know, who work with words or work with
images and are starting to use these technologies in the workforce. And sort of the question is,
who benefits more the high-skilled worker and, you know, think, you know, lawyer, doctor,
you know, accountant, whatever, graphic designer, the high-skilled person who uses these tools to
become, right, an additional quantum leap high-skilled. And that would be a theory of sort of separation.
But the other scenario is the sort of average or even low-skilled worker who gets upgraded.
And of course, just kind of the nature of the economy, there are kind of more people in the middle.
And at least there's been a series of research studies that have been coming back,
that it's actually the uplift to average is actually more significant than the uplift to the high-scale level.
And so actually what seems to be happening right now is essentially a compression by kind of lifting people up.
Social questions are often a zero-sum game of who gains and who loses.
But there may be something here where just a lot of people just get better at what they do.
Why is open source AI in particular important for national security?
Yeah, so for a whole bunch of reasons.
So one is it is really hard to do security without open source.
There actually used to be, there's actually two schools of thought on kind of information security,
computer security broadly that have played out over the last 50 years.
There was one school of security that says you want to basically hide the source code.
And this seems intuitive because presumably you want to hide the source code so that,
you know, bad guys can't find the flaws in it, right?
And presumably that would be the safe way to do things.
And then over the course of the last 30 or 40 years, basically what's evolved is the realization, you know, in the field, and I think very broadly, that actually that's a mistake. In the software field, we call that purity through obscurity, right? And sort of we hide the code. People can't exploit it. The problem, of course, is, okay, but that means the flaws are still in there. And so if anybody actually gets to the code, they just basically have a complete index of all the problems. And there's a whole bunch of ways for people to get to code. They hack in. You know, it's actually very easy to, it's actually very easy to steal software code from a company. You hire the janitorial stuff.
to stick a USB stick into a machine at 3 in the morning.
Software companies are very easily penetrated.
And so it turned out security through obscurity was a very bad way to do it.
The much more secure way to do it is actually open source,
basically put the code in public,
and then basically build the code in such a way that when it runs,
it doesn't matter whether somebody has access to the code.
It's still fully secure.
And then you just have a lot more eyes on the code to discover the problems.
So in general, open source has turned out to be much more secure.
I would start there if we want secure systems.
I think this is what we have to do.
What's the biggest adjustment problem governments will face as AI progresses?
For instance, if drug discovery goes up by 3x, all of a sudden the FDA is overloaded.
If regulatory comments are open, AI can write great regulatory comments.
What does government have to do to get by in this new world?
Yeah, so I think for every scenario, by the way, hopefully at least the first of those two scenarios happens, maybe also the second.
For anything like this, what there should be is there should be a corresponding phenomenon happening on the other side.
And so the government sort of correspondingly then should be using AI to evaluate new drugs, right?
And so company shows up with the new drug design.
There should be AI assist to the FDA to help and evaluate new drugs.
A regulatory agency that has public comments should have AI assist for being able to be able to process all that information and be able to aggregate it and then be able to reply back to everybody.
This is a very interesting thing about AI.
Sort of every possible threat you can think of AI posing.
Basically, there is a corresponding defense that has to get built.
I'll pick another one.
Cybersecurity.
People are quite, I think, legitimately concerned that AI is going to make it easier to actually.
create and launch cybersecurity attacks.
But correspondingly, there should be better defenses.
There should be AI, AI-based cybersecurity defenses.
By the way, we see the exact same thing with drones.
You know, weaponized AI, autonomous drones are clearly a threat, as we see in the world today.
And so we need AI defenses against drones.
The cynical view would be this is just a classic arms race, you know, attack defense, attack
defense, and kind of does the world get any better if there's just more threats and more defenses?
I think the positive way of looking at it is we probably need these defenses anyway, right?
So even if we didn't have AI drug discovery, I think we should be using AI to evaluate drugs.
Even if we didn't have AI drones, we should still have defense against standard missiles and against enemy aircraft.
Even if we didn't have AI sort of driven cyber attacks, we should have AI driven cyber defenses.
And so I think this is an opportunity for the defenders to not only keep up, but also build better systems for the present day threat landscape also.
The Biden AI directive, what's the best thing about it?
What's the worst thing about it?
Yeah.
So the best thing about it is it didn't overtly attempt to kill AI.
So that was good.
You never know with these things, how much teeth they're going to try to put into it.
And then, of course, there's always the question of whether it stands up in court.
There were things that were being discussed in the process that were much, much worse.
And I think much more hostile to the technology than ended up being in it.
So I think that's good news.
I think it was quite benign in terms of it's just like flat out directives, which is good.
The issue with it, people have different opinions.
My opinion, the issue of it is it kind of green-lit, you know,
essentially 15 different regulatory agencies to basically put AI under their purview.
in sort of undefined ways. And so, you know, we will now have, I think, a relatively protracted
process of many regulators from many agencies without explicit authority in the domain, basically
inserting themselves into the space. And then, you know, presumably at some point there will be
a determination of who, you know, has purview over what. But it seems like we're in for a period
of quite a bit of confusion as a result. So how much more green energy do we need to, in essence,
fuel all of this AI and where will it come from? What do you see the prospect is like for the next 20 years?
Yeah. The good news of AI and the good news with also, by the way, with,
with crypto because there's always a lot of controversy around crypto and Web 3 and blockchain
around energy use. The good thing with these technologies, the good news from energy is these
systems lend themselves to centralization of data centers, right? And so if we need a million
to go into 10 million, going 100 million to a billion AI chips, could be distributed out
all over the place, but they can also be highly centralized. Because you can highly centralize
them, you can think not just in terms of building a server, you can think about building
basically a data center that's an integrated thing from the chip basically all the way to the
building or to the complex of buildings. And then the way those modern data centers are built
by the leading edge companies now is they're sort of built on day one with an integrated strategy
for energy and for cooling. And so basically any form of energy that you have, you know, that you
could do in a very efficient way, in a very clean way, or new energy technologies, AI is a use
case for developing and deploying that kind of power. And so, you know, just building what we've
seen from internet data centers, that could be geothermal, that could be hydroelectric, that could be
nuclear efficient, that could be nuclear fusion, solar, you know, wind, big battery packs,
and so forth. And so I think the aspirational hope would be this is sort of another catalyst to more
advanced rollout of energy. And even if there's sort of net energy increase, the sort of motivation
to get to higher levels of efficiency will be net good in helping us get to a better energy footprint.
And which of those energy sources, in your view, is most underrated? Oh, I mean, nuclear
efficient for sure is the most underrated today. Yes, the wave of magic one. We ought to be doing
what Richard Nixon proposed in 1971, right? We ought to build what he called project independent.
which was built a thousand new nuclear power plants in the U.S.
and then cut the entire U.S. grid over to nuclear and electricity,
go to all electric cars, do everything else.
Richard Nix's other great, or corresponding creation of nuclear regulatory commission,
of course, guarantees that won't happen.
The plan is exactly on track, but we could.
And so either with existing nuclear-efficient technology
or there's actually a significant number now of new nuclear-efficient startups,
as well as fusion startups working on new designs,
and so this would certainly be a great use case for that.
So if the nations that will do well in the future are strong in AI and strong in energy,
thinking about this in terms of geopolitics, which countries rise in importance?
For better or worse?
Okay, so different things.
Add a couple more things to that, which is which companies are in a position to best invent
these new technologies, and then there's a somewhat separate question of who's in the best position to deploy,
because it doesn't help you that much to invent it if you can't deploy it.
And so I would put that in there.
But, I mean, look, I would give the U.S. very, very high marks on the invention side.
I think we're the best.
I think we have the best R&D innovation capability in the world in most fields, not all, but most.
And I think that's certainly true of AI.
And I think that's at least potentially true in energy.
I don't know whether it actually is, but it could be.
And so, you know, we should be able to forge ahead on that.
China is clearly the other country with critical mass in all of this.
You could quibble about the level of invention versus sort of fast follow and talk about, you know,
kind of IP acquisition, things like that.
But nevertheless, whatever your view is, they're moving very quickly and aggressively and have critical mass.
You know, a big internal domestic market and a huge number of researchers and a lot of state support.
So I think by and large, you know, we're looking for sure on AI and then I think probably also in energy,
we're probably looking at primarily a bipolar world for quite a while.
And then spheres of influence, you know, kind of going out.
You know, I would say Europe is sort of a dark horse in a sort of a strange way in that the EU seems absolutely determined to ban everything.
So it sort of put a blanket ban on capitalism and within that ban AI and ban energy.
On the other hand, we have this incredible AI company called Mistral in France,
which is the leading open source AI company right now and one of the best AI companies in the world.
And the French government has actually really been stepping up to help the ecosystem in Europe.
And so I would actually like to see sort of a tripolar world.
I'd like to see the EU kind of fully punch in, but I'm not sure how realistic that is.
So let's say you're in charge of speeding up deployment in the United States.
What is it you do? State level, local level, feds.
What should we all be doing?
Of AI specifically?
Everything.
Because it's all increasingly interrelated, right?
AI, energy, biomedicine, everything.
Yes, yes.
Well, AI takes you straight to chips, which takes you straight to the Chips Act, which
does not yet result in the creation of any chip plants, although it might someday.
The most basic observation is maybe the most of at all, which is, you know, stagnation is a choice,
decline as a choice.
As Tyler's written at great length, you know, the U.S. economy downshifted its rate of technological
change, you know, basically since the 1960s.
The technological change as measured by productivity growth in the economy, it was much
faster prior to the last 50 years than the most recent 50 years. And, you know, that's just
the result of just sort of a, you have a big argumentist exactly what caused that, but a lot of it
is just an imposition of just like, you know, blankets and blankets and blankets of regulation
and restrictions and controls and processes and procedures and all the rest of it. So, yeah, so,
you know, and you can start by saying step one is do no harm. And so, you know, this is sort of
this is our approach on AI regulation, which is, you know, don't regulate the technology.
You don't regulate AI as a technology anymore than you regulated microchips or software or anything
like operating systems or databases, instead regulate the use cases. And the use cases are generally
regulated anyway. It's no more legal to field a new AI design drug without FTA approval than it is a
standard design drug. And so apply the existing regulations as opposed to hamstring the technology.
So that's one, energy exploitation. Again, energy is just pure choice. Like we could be building
a thousand nuclear plants tomorrow. My favorite idea there, which always gets me in trouble.
And so I can't resist is the Democratic administration should give Coke Industries the contract
to build 1,000 nuclear reactors, right? Everybody gets revenge and everybody else. The Democrats
get Charles Coke to fix climate change, and then Charles gets all the money for the contracts,
and so everybody ends up happy. Nobody yet has bit on that idea when I pitched it, but maybe I'm
not talking to the right people. So, you know, look, we could be doing that. You know, we'll see if we
choose to. Look, the chips plant thing is going to be fascinating to watch. There was this really,
you know, we passed the Chips Act, and in theory, the funding is available. And, you know,
the American chip companies are generally pretty aggressive and I think trying pretty hard to build
new capacity in the U.S. But there was this actually very outstanding article in the New York Times
some months back by Ezra Klein where he sort of goes through and he says, okay, even suppose the
money is available to build chip plants? Like, is it actually possible to build chip plants in the
U.S.? And he sort of talks about all of the different regulatory and legal, you know, basically
requirements and obligations that get layered on top. And, you know, it was sort of speculating
as to whether any of these plants will actually get built. And so again, I think we have here,
we have just sort of a level of fundamental choice as a society, which is, you know, do we want to
build new things. I can't say how exciting it's been, at least in the West Coast, how exciting
it's been for Las Vegas to get the sphere, because like, it's now impossible to visit Las Vegas without,
like, everybody's always complaining the Egyptians built the pyramids, like, where are our pyramids?
And it's like, ah, we have a sphere. And so just like flying into Vegas just gets your juices
flowing, like, gets you all fired up because, like, this thing is, like, amazing. And by the way,
I'm just talking about the view from the outside. I understand the thing on the inside is also
amazing. And so, you know, we clearly can do that, you know, at least in Vegas. We've been
lives now, you know, in London, I think they just gave up on building the sphere. So that's,
you know, that's the other side of it. And so, you know, we do have to decide whether we
want these things to happen. You know, it's a little bit dispiriting to see the liquid natural
gas decision that just came down. But are the roots of this stasis quite general and quite
cultural? Because parents coddle their children much more, their higher rates of mental illness
amongst the young. Young people, it seems, have less sex, along a lot of cultural variables,
the percent of old music people listen to compared to new music. There seems to
to be a more general stagnation. So how would you pinpoint our loss of self-confidence or dynamism?
Where's that coming from? Yeah. Well, so first of all, to be clear, we're very much in favor of young
people not dating, because that's very distracting from their work at our startups.
So that works out fine. And fortunately, in our industry, we have a long experience without
having dating lives when we're young. So that works out well. So it's not all bad. So it is
really interesting. I mean, look, Silicon Valley has like all kinds of problems. And we're kind of a case
study for a lot of the, I mean, look, it's not like you can build anything in Silicon Valley, right?
So we've got, I mean, our politicians absolutely hate us and they don't let us do anything
if they can avoid it. So, you know, we have our issues. You know, the view from the valley is,
you know, yeah, a lot of kids are being brought up and trained, you know, to basically adopt
a sort of fundamentally pessimistic, you know, sort of pessimistic or, you know, sort of how to put
it like, you know, stagnation oriented, inert, like, you know, have very low expectations,
you know, basically, you know, a lot of what passes for education now is kind of teaching people how to
complain, which they're very good at. The complaining has reached operatic levels lately.
And so there is a lot of that. You know, having said that, look, I'm also like actually really
optimistic. And in particular, I'm actually quite optimistic about the new generation coming up.
I think Gen Z and then I think it's Gen Alpha and then it's whatever my eight-year-old is.
We're seeing more and more kids that are coming up and they're being sort of exposed to a full
load of basically, you know, programming, sort of cultural programming, education programming
that says you should be depressed about everything, you should be upset about everything,
you should have low ambitions, you shouldn't try to do these things.
And they're coming out with sort of a very radical kind of hard shove in the other direction.
And they're coming out with just basically coming up with tremendous energy
and tremendous enthusiasm to actually do things.
And so, which is very natural, right, because kids rebel.
And so if the system is teaching stagnation, then kids, at least some kids will come up
the other way and decide they really want to do things in the world.
And so I think entrepreneurs in their 20s now are a lot better than certainly my generation.
And they're frankly more aggressive than the generation that preceded them.
and they're more ambitious. And so, no, we're not dealing with a minority, not a majority.
But I think there's quite a bit, like, yeah, every hour I get what I can spend a 20-year-olds is actually
very encouraging. One emotional sense I get from your walk-on music, Beethoven's Fifth Symphony,
is just that the stakes are remarkably high. Now, if we're looking for indicators to keep track of
whether, in essence, things are going your way, greater dynamism, freedom to build, willingness to build,
American dynamism. What should we track? What should we look at? How do we know if things are going
well? Yeah. I do not come here and do not come to the world with like comprehensive answers.
I mean, so the overall answer is productivity growth in the economy is a great starting point.
Economic growth is a great starting point. You know, so the overall questions are there,
you know, most of our economy is dominated by, you know, incumbent institutions that, you know,
have no intention. I don't think of changing or evolving unless they're forced to.
You know, certainly most of the business world now is, you know, one form of oligopoly or another that
sort of has various markets locked up. And so I don't think there's some like magic bullet to hugely
accelerate things. Having said that, you know, I think, you know, attacking from the edges, you know,
is the thing that can be done, which is basically what we do, what Silicon Valley does.
And then, you know, when you attack from the edges the way that our entrepreneurs do, you know,
look, a lot of the times they don't succeed. You know, it's a high risk occupation with a lot of
risk of failure. But when they succeed, you know, they can succeed spectacularly well. And, you know,
we have companies in American economy that were venture-backed in the 1970s and actually even some that were
venture-backed in the 1990s and 2000s, you know, that are now bigger than most national economies,
right? And so, you know, when these, is it, was it Apple? I think Apple's market cap is bigger
than the entire market cap of the German stock market. I think that's right. Like just one
company. And, you know, Apple was a venture-back startup, you know, two kids in a garage and, you know,
1976, not that long ago. It's bigger than the entire German, you know, basically industrial
public market. And so, you know, attacking at the edges, you know, sometimes you can get really,
really big results. Sometimes you get, you know, you just prod the system. You know, sometimes you just, you
spark people into reacting.
and that pushes everything forward.
And then the other question always is just like, from our standpoint,
what are the tools that startups have in order to try to really change things?
And, you know, there's a bunch of such tools,
but there's always two that really dominate.
And one is just what's the magnitude of the technological change in the air that can be harnessed.
And so we're always looking for kind of the next super cycle,
the next breakthrough technology,
in which you can imagine a thousand companies doing many different things,
all kind of punching into incumbent markets.
And AI certainly seems like one of those.
And then, yeah, the other is just the sheer sort of animal.
malistic ambition, energy, animal spirits of the entrepreneurs and of the teams that get built.
And like I said, I think the best of the startups today are more aggressive, more ambitious,
more capable, the people are better.
They execute better than at least I've ever seen.
So I think that's also quite positive.
Who's a social thinker who helps you make sense of these trends?
Oh, yeah.
My favorite is James Burnham, is my favorite.
And why Burnham?
Why Burnham?
Yeah.
So Burnham is a famous.
Burnham is a not famous, but he should be famous.
Burnham is a fascinating story.
He was a thinker in the 20th century who talked a lot about these issues.
He started out life, as a lot of people do, in the 1920s, in 30s, as a dedicated Trotskyite,
full-on, full-on communist.
But he's a very special guy.
Burnham was a very brilliant guy.
And so he was such a dedicated communist that he was close personal friends with Leon Trotsky,
which is how you really know, really know how you've made it when you're a communist.
And he would have these, like, huge arguments of Trotsky, you know,
which is not the safest thing in the world to do, but apparently he got away with it.
And, you know, very enthusiastic, you know, communist revolutionary through the 30s.
And then sort of in the 40s, he's, you know, a very smart guy.
he started to figure out that was a bad path.
And he went through this process of rethinking everything.
And by the 1950s, he was so far to the right that he was actually a co-founder of National
Review magazine with William Buckley, who always said he was the intellectual kind of leading
light at National Review.
And so, you know, he's got kind of works that he wrote that will accommodate the full
spectrum of politics.
But in his middle period where he was trying to kind of figure out, you know, this is like
in the 1940s, he was trying to kind of figure out where things were going.
And there was enormous, there were enormous questions in the 1940s because it was viewed
is like a three-way, basically, war for the future between communism, you know, on the far left,
fascism on the far right, and then liberal democracy kind of floating around there somewhere.
His best, most well-known book is called The Managerial Revolution, which talks a lot about the issues
we've been discussing, and it was written in like 1941. And it's fascinating for many reasons,
part of which is he was still mad about communism, so a lot of it is, he debunks communism in it,
but also, you know, they didn't know who was going to win World War II. And so it talks about
this battle of ideologies as if it was still an open topic, which, you know,
is super interesting. But he did this very kind of Marxian analysis of capitalism. He made the
observation that I see every day, which is there are fundamentally two types of capitalism.
There's the original model of capitalism, which he calls bourgeois capitalism, which you could
think like Henry Ford is the archetype of that. So a capitalist starts a company, runs the company,
name on the door, ownership of the company, control the company, you know, sort of dictator of the
company, you know, sort of complete alignment of a company with an individual. And then he talks about
this other emerging form of capitalism at that time called managerial capitalism. And in managerial
capitalism, you think about today's modern public companies, right? Think about Walmart or whatever,
any public company where, you know, in theory there are shareholders, but what really what there are
is there are millions and millions of shareholders that are incredibly dispersed, you know, who
all owns small, you know, everybody in this room owns some, you know, three shares of Walmart stock
and a mutual fund somewhere. You don't wake up in the morning wondering what's happening to
Walmart. It doesn't even occur to you to think about yourself as an owner. And so what you get
instead is this managerial class of actually both investors like fund managers and then also
executives and CEOs who actually run these companies. They have control, but without ultimate
responsibility, right, without ultimate ownership. And the interesting thing he said about that is
he said, look, managerialism is basically it's not that it's good or bad. It's just, it's sort of
necessary because, you know, companies and institutions and governments and all the rest of it get
to the point where they're just too big and too complicated for one person to run everything.
And so you're going to have the emergence of this managerial class that's going to run things.
But there's a flip side of it, which is the people who are qualified to be managers of large organizations are not themselves the kind of people who become bourgeois capitalists.
They're the other kind of person.
And so they're often good at running things, but they generally don't do new things.
They generally don't seek to disrupt or seek to create or seek to invent.
And so one way of thinking about kind of what's happened in our system is capitalism used to be bourgeois capitalism.
It got replaced by managerial capitalism without actually changing the name.
That will necessarily lead to stagnation.
And by the way, that may be necessary that happens because the systems are too complicated,
but that will necessarily lead a stagnation.
And then what you need is basically the resumption of bourgeois capitalism to come back in
and kind of at the very least, like poke and prod everybody into action.
And that, you know, aspirationally is what is what we do and what our startups do.
Mark Andreessen, thank you very much.
Good. Great. Thank you, everybody.
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