The a16z Show - a16z Podcast: Software Programs the World
Episode Date: July 11, 2016"All of a sudden you can program the world" -- it's the continuation of the software eating the world thesis we put out over five years ago, and of the trajectory of past and current technol...ogy shifts. So what are those shifts? What tech trends and platforms do we find most interesting on the heels of raising our fifth fund? Are we just building on and extending existing platforms though, or will there be new platforms; and if so, what will they be? Well, distributed systems for one... This episode of the a16z Podcast covers all things distributed systems -- encompassing cloud and SaaS; A.I., machine learning, deep learning; and quantum computing -- to the role of hardware; future interfaces; and data, big and small. Podcast guests Marc Andreessen and Ben Horowitz (in conversation with Scott Kupor and Sonal Chokshi) also share the one piece of advice from a management and go-to-market perspective that all founders should know. And finally, why simulations matter... and what do we make of our current reality if we are all really living in a simulation as Elon Musk believes? Stay Updated:Find a16z on YouTube: YouTubeFind a16z on XFind a16z on LinkedInListen to the a16z Show on SpotifyListen to the a16z Show on Apple PodcastsFollow our host: https://twitter.com/eriktorenberg Please note that the content here is for informational purposes only; should NOT be taken as legal, business, tax, or investment advice or be used to evaluate any investment or security; and is not directed at any investors or potential investors in any a16z fund. a16z and its affiliates may maintain investments in the companies discussed. For more details please see a16z.com/disclosures. Hosted by Simplecast, an AdsWizz company. See pcm.adswizz.com for information about our collection and use of personal data for advertising.
Transcript
Discussion (0)
Hi, everyone. Welcome to the A6 and Z podcast. I'm Sonal, and I'm here today with a special podcast we have on the heels of announcing our fifth fund for Andreessen Horowitz. And we thought we'd talk more broadly about what's changed between the first fund and now and more importantly, some of the technology trends and trends we're seeing with founders. And to have that conversation with us, we have our co-founders, Mark Andreessen and Ben Horowitz and our managing partner, Scott Cooper. Welcome, guys.
Hey.
Thank you.
Okay. So let's just kick things off. One of the things that.
I want to understand is that it's been since Fund 1, which is what, seven years ago?
Seven years ago? A lot's changed in seven years. And I've actually heard you argue, Mark,
that things have accelerated in that time period, more so than previous decades before.
So what do you guys think are the biggest shifts now that are important to us in this newest fund?
And what changed in that period, like the biggest things?
So in Fund 1, when we started, we thought that our timing was really good despite the fact that I think the world thought our timing was really bad.
starting a new venture capital fund. And the reason why we thought that was that there were three
gigantic new platforms hitting all at the same time, which was kind of unprecedented in the history
of technology. One was mobile. The second was social and the third was cloud. And that really
proved out through the course of the early history that the applications on top of those,
particularly mobile and cloud, were just spectacular. And I think we're coming a little
bit to the end of the first phase of the, you know, some of the obvious applications that could be
built on those things and we're moving into some new areas. Yeah, so let me go kind of to the
foundations. So there's different ways of looking at it. The foundational levels, one is Moore's Law has
really flipped. And this, this actually has happened. I think this actually has happened over the last
seven or eight years, actually almost exactly over the life of the fund, which is, you know, for many,
many years, Moore's Law was a process of the chip industry, bringing out a new chip every year and a half
that was twice as fast as the last one at the same price.
And that continued for 40, 50 years.
And that's, by the way, what resulted in everything from mainframes, mini computers, PCs, and then smartphones.
About, you know, seven, eight, nine, ten years ago, that process actually started to come in an end the way that it had worked up until then.
So chips have kind of topped out at the speed of about three gigahertz.
And a lot of people have said, therefore, like, progress in the tech industry is going to stall out because the chips aren't getting faster.
I think what's actually happened is Morislaw has now flipped.
The dynamic now, instead of increased performance, is reduced cost.
You now have this dynamic where every year, year and a half, the chip companies come out with the chip that's just as fast, but half the price.
And so this is this sort of just this massive deflationary force, I think, in the technology world and I actually also suspect in the economy more broadly, where basically computing is just becoming free.
Basically, what we do in this business is we just kind of chart out the graphs and then just kind of assume at some point you're going to get to the end state.
And the end state is going to be the chips are going to be free, which means chips will be embedded in everything.
You'll be able to use chips for literally everything.
And we've never lived in a world before where you can do that.
So that's the first one.
Second one is just the obvious implication from that, which is all those chips will be on the network.
So all those chips will be connected to the internet.
They'll all be on Wi-Fi or mobile carrier networks or wired networks or whatever.
But they'll all fundamentally be on the internet.
That's something that's not happening at a very rapid pace.
And then the third is the continuation of the piece that I wrote actually five years ago,
which was called Software Eats, The World, which is basically just say, if you're going to live in a world in which there's going to be a chip in every
physical object. And if you live in a world in which every physical object, therefore, is going
to be networked, is going to be smart because it has a chip and it's going to be connected to
the network, then basically, you can then program the world. You can basically write software
that applies to the entire world. So you can write software that all of a sudden applies to all
cars. So you can write software that applies to all, you know, everything flying in the sky.
Or you can write software that applies to all buildings. So you can write software that applies to,
you know, all homes or all businesses or whatever, all factories. And so all of a sudden,
you can program the world.
That's really just starting.
I think a lot of the,
there's a number of things
that make the entrepreneurs we're seeing
these days in many ways
more interesting and more aggressive
than entrepreneurs we've seen
the past.
And part of it is they just assume
if there's something to be done
in the world,
there must be a way to write software
to be able to do it.
That's at a new level of power,
sophistication.
It's a new scope of what the tech industry can do.
The consequence of that for us as a fund
is that we find ourselves
evaluating business plans
and funding companies that are in markets
where I think seven or eight years
ago we would have never
anticipated operating.
So, Mark, does that mean that there's no new innovation in platforms themselves and everything,
all the innovation will be applications that ride on that existing infrastructure?
Or do you think there's also the opportunity to build a new platform, even given some of those trends?
I think there are new platforms, and I think there will be new platforms.
I just think there will be different kinds of platforms than we've had in the past.
The idea of a platform in the tech industry, as you know, up until five or ten years ago,
was there is a new chip that has new capabilities as faster, and then therefore you build a new operating system for it.
And that might be Windows or it might be, you know, might be, you know,
might be iOS or whatever it is.
The platforms that we're seeing getting built these days are distributed systems, so scale-out
systems.
Instead of being built on a chip necessarily with new unique capabilities, they are platforms
that are going to build across lots of chips.
And so in computer science terms, there's distributed systems.
Cloud was one of the first examples, right?
So anybody who uses AWS can now go on and can program an application on AWS that
will run across 20,000 computers, and they can run it for an hour and it'll cost, you know,
50 bucks.
And that's a kind of platform that did not exist.
before. And by the way, there are many specific elements to that. So, for example, we've seen the rise
of, in that category, seeing the rise of Hadoop and now the rise of Spark for distributed data
processing. We've seen in financial technology, we've seen the rise of Bitcoin and cryptocurrency,
which is literally a distributed platform for, you know, for currency and for exchanging value.
And now we're seeing the emergence of a major new platform, which is AI, machine learning
and deep learning, which is inherently, the great thing about machine learning and deep learning
is they're inherently parallelizable. They can run across many chips. And they get very
powerful as you do that. And you can do things in AI today as a consequence of being able to
run across many chips that you just couldn't even envision doing five or ten years ago.
So let's talk about the rise of the GPU as part of this next platform ship. I mean, I think
the biggest surprise people have had is that this is the graphical processor unit, which is something
that was developed in the gaming industry for really high resolution graphics processing
and is now finding, I guess, unexpected? Is it a surprise to us that it's finding uses in
these new platforms like VR, AR, deep learning?
It's actually, interestingly, it's a new application of an old idea.
Back when I was getting started 30 years ago, working in physics labs, if you wanted to run just a normal program, you just buy a normal computer and run the program.
But if you wanted to do run a program, many physics simulations had this property where you would want to run a very large number of calculations in parallel.
And so you could basically divide up a problem of simulating anything from a black hole or to different kinds of biological simulations.
you could basically write these algorithms
in a way that you could basically
parcel the problem into many different pieces
and then run them all in parallel.
There was actually, in the old days,
there was actually a whole industry
of what we're called vector processors,
which were literally these kind of sidecar computers
that you would buy and you would hook up to your main computer
and they would let you run these parallel problems much faster.
And so literally 30 years later,
the GPU is basically a vector processor.
It's basically a sidecar processor that sits along the CPU
and runs these parallel problems much faster.
And graphics are a natural application of that,
but as it turns out, graphics aren't the only application.
Yeah, actually, interestingly, and I was at a company making one of these called Silicon Graphics,
and the applications then, whereas Mark was saying a lot of physics applications, computational fluid dynamics,
and simulating, you know, flight simulation and all these kinds of things that are hard physics to calculate.
When you go into the virtual world and you're simulating the physics of the real world, guess what?
You need the exact same processor to do it.
So it's a super logical conclusion to what's been great.
going on, but I think we're also in the world of big data, seeing kind of more reasons to do
just lots of math and parallel. And so it's an exciting application. Yeah, you talk about
platforms. One of the really interesting hardware platforms is emerging right now is Nvidia,
which is a very well-established public chip company, but very successful, to your point,
doing graphics chips for a very long time, has become seemingly overnight. It's really, of course,
the result of years of work, but seemingly overnight has become the market leader in both not just
GPUs, but also in chips being used for AI. And it's basically extensions of the GPU technology.
And we see this overriding theme, which is kind of an amazing thing, which is basically every
sharp AI software entrepreneur that comes in here is now building on top of Nvidia's chips,
which is, of course, a very different outcome than entrepreneurs of previous years who would have
built other kinds of programs primarily on top of Intel chips. We've mentioned AI and machine learning
a couple times here. And one of the interesting things, at least that I think we see in the industry,
is at the same time we've got startups doing it, we also see some of the
very large established players investing significantly in AI and machine learning. So certainly Facebook and
Google, Apple and others are obviously building big operations. How do you think about the universe
from an investment perspective? What are the kinds of things that actually lend themselves well to
startup opportunities in the AI space versus things that actually might make sense kind of living
inside of one of the larger companies like a Facebook or Google? Yeah. So, you know, AI is
extremely broad. And I think one of the challenges that people have with it is they try to paint
as a narrower thing than it is, but one can think of it as an entirely new way to write a computer
program. And so then it's applicable to, you know, the universe of problems. So there are things
that advantage a big company. You know, if you're building AI to analyze consumer internet data,
like that's hard to take Google on at that. They do have an awful lot of data. And, you know,
Facebook, you know, with AI computing power matters and the data set matters. Having said that, there are a lot of
areas where nobody has any data yet in the areas of health care and the areas of autonomy.
So, you know, there's lots and lots of opportunities. And, you know, there's also interesting
ideas about, well, is there a better user interface than the smartphone using AI techniques?
And then what is the form of that?
What do you mean by that when you say there's a better user interface?
Well, if you think about a smartphone, it was kind of an advance over what we used to call
the WIMP interface.
Windows icons. What was it?
Menus.
What was it?
Pointer.
Pointer. Right.
Which, you know, was like a big advance over the text-based interface of DOS.
And then, you know, the smartphone with a touch interface.
So it was more of a direct manipulation was an advance over that.
And so you go, okay, well, but that's not actually what people do in life, right?
like you're, it's anthropologically, it's a backward step in terms of the natural interface
that we've become accustomed to, like, for example, natural language.
With AI, you get into a world where things like natural language and natural gestures and so forth
become much more plausible. So there's, you know, potentially an opportunity to build
interfaces for things that you couldn't be for. I mean, I think there's one like really interesting
thing, which I'm sure, and I know that Google and Apple and all the giant companies are very
focused on, which is how do you replace the current set of user interfaces with it? But there's
another dimension, which is, what are all the applications that you just couldn't have before?
Because you couldn't build a workable user interface for it. And AI seems very promising in those
areas. You didn't mention Amazon, which is sort of the stealth player here with Echo and Alexa. I mean, really,
church and horse at the home. Well, you know, in a way, and a way.
way they've got an interesting advantage in that they're not in, you know, they're not tied to
the last generation of user interfaces so that they don't have to pay the strategy tax for
shoehorning in their AI into, say, the iPhone. And that's, that's something. Yeah, that's worth
pointing out there. There's sort of two kind of classic rules of thumb in this industry. One is,
for major new advances, especially in things like interfaces, if you don't own a platform, you can't do them.
And so the assumption, I think, had been up until recently, you know, that it would have to be Google or Apple
that does these kind of natural language or interface advances because they own iOS and Android.
The other rule, of course, is the exact opposite rule, which is the one that Ben mentioned,
which is the problem that big established companies get into is this, what he referred to as the
strategy tax, which is basically big companies with existing agendas have to sort of fit their
next thing into their existing agenda, and they often compromise it in the process.
And so it's sort of this ironic twist of fate that Amazon has all of a sudden taken the lead from
Google and Apple, even though Amazon famously flopped with their phone, right, which is sort of the
obvious place where you would have a voice interface, it didn't matter because they came out with
this new product, which is this basically the speaker, the smart speaker called Echo.
And the fact that all of a sudden, Amazon didn't have a phone, all of a sudden became an
advantage because they could just do the clean actual breakthrough product without worrying
about tying it into the existing strategy.
Right. And those are all still big companies, though. I'm not really hearing where startups
can really play in this space, especially when you're describing this huge data network effect
that all these big companies have. A year ago, we would have probably been sitting here and
say that AI was going to be likely would be a domain of big companies because of this sort of
thing of like, okay, only big companies can afford the very large number of engineers
that are required to do AI. Only big companies can afford the amount of hardware required to do
AI. And then only big companies can get the giant data sets required to do AI. In the last 12
months, what we've seen basically is all three of those changing very fast into the advantage
of startups. We've seen a lot of AI technologies actually now interestingly standardizing.
So going to open source and then the next step is going to be they're going to go to cloud.
And we're right on, we think we're right on the verge of that.
We think all the major cloud providers are going to be providing AI as a service.
And they're going to really radically reduce the amount of technical knowledge.
You need to apply AI.
And so that plays very well to the startups.
So there will be like an AWS for AI.
Yeah, exactly.
And that may be literally AWS or it may be Google or Microsoft or all three of them in some, you know, in some combination.
Or maybe other, you know, other companies yet to emerge.
An example of the open source like TensorFlow, like Google releasing TensorFlow.
Yeah. And this is a big deal.
And, yeah, it's right.
So Google open source to pretty significant part of how they do deep learning.
And that actually now is something other companies can pick up and use.
directly. And we see, we see actually a lot of companies, not only a lot of companies, but like a
university, a lot of student projects now, just kind of can pick that up and run with it.
So, so this technology is kind of trickling down very fast. Just this past weekend, we had a hackathon.
And I think most of the teams had some machine learning AI component into their hacks. And these are
college kids. Yeah. Yeah. If you're, you know, if you're a, if you're a 21 year old junior in
college and you're doing some project, it's just kind of, it's becoming rapidly becoming very
obvious that you would have AI be part of it, which was very much not the case even 12 months ago.
And that's a direct to your point.
That's a direct consequence of the open sourcing and kind of this knowledge spreading out.
The second thing was the hardware costs.
And there again, the cloud, AI and the cloud, just the existence of the cloud is bringing down hardware costs across the board.
But AI and the cloud is going to bring that down even further.
And by the way, these trends all slam together.
So you get what I think in a year is going to be very common, these sort of AI supercomputing chips with the AI algorithms in the cloud available to anybody for a dollar.
Right.
And so there's going to be this massive deflation of hardware cost on that side.
These big data sets are interesting.
Ben made the case that the startups can assemble big data sets,
and I think that there are certainly examples of that.
We also see another thing happening,
which is the newest generation of experts in deep learning,
or many of them are specializing in the idea of deep learning applied against small
datasets.
If you talk to those folks, what they'll tell you is,
oh, they'll basically say,
as primitive and crude deep learning required big datasets,
but the really good stuff doesn't.
Small data sets are fine.
And so that's still very early,
but it's extremely enticing.
It's an extremely enticing idea because it,
it really brings a lot of these problems to your point further into being tractable for small companies.
But actually, one of the things you can do with these, especially with these GPUs,
is you can literally use the same tools that are used to make video games.
And you can create simulated versions of the real world.
And then you can actually let the AI train inside the simulation.
And so if you're building a new self-driving car or a drone or something like that,
you can actually create simulated worlds in which there are everything from earthquakes to floods to, you know,
thunderstorms and hail storms.
You know, you can create, you know, birds, you know, swarms of birds.
You can literally simulate the real world environment.
And then you can let the AI actually train inside that world.
And actually, it's funny, the AI actually has no idea it's training in the virtual world.
It's learning just the same as if it were learning in the physical world.
And so, again, for startups with access to cloud-based AI, you could potentially run basically millions of hours of simulated training at very low cost and all of a sudden catch up to big companies.
Interestingly, you know, the very famous AI project that Google did with Deep Mind, that whole data set,
came from the game playing itself.
So, you know, there wasn't some data set that Google had collected over 20 years.
It was the game playing itself.
So you guys have both mentioned simulations a few times.
Why are they so important?
Because I feel like there was this period, like, you know, maybe even a decade ago,
where simulations were almost frowned upon as this promised thing that didn't really actually deliver in what you needed to be able to navigate complex environments in real life.
Yeah, well, it's interesting.
So was AI was frowned upon 10 years ago.
saying it was all that didn't work.
And particularly neural nets and deep learning were the most frowned upon area.
And there's been similar kind of breakthroughs with simulation.
And first of all, so if you think about the field of data science and what you do with data,
you have a giant set of data, which is always historical in nature, and you can analyze that.
And maybe it's predictive of the future, but oftentimes it's not.
And we see this in particular in things like, you know, really dynamic things where the past affects the future like, say, stock picking or, you know, or the weather or other kinds of things where, you know, data analysis doesn't get you an accurate answer.
Simulation is a flip side of that where you can say, okay, here are all the entities in the world and let's generate their behavior over time.
And then their actual behavior feeds back into the simulation, which is critical, you know, a critical component.
historically that's been difficult at scale, but there have been some really important breakthroughs lately, particularly from a company that we're invested in called Improbable, which is able to do very large scale out simulation using cloud computing techniques and some very important new technology that they've developed.
And so you can get a really complete picture of the world.
And as Mark was saying, you can actually generate your own data set rather than that.
then collecting it for certain kinds of situations.
Yeah, let me add the thing to that.
So one way to think about it is it's expensive to make things happen in the real world.
Like, it's expensive to change things in the real world because the real world is physical
and causing physical changes to happen.
I mean, everything from building roads to flying planes, all these things are very expensive.
And then things in the real world changes have serious consequences, right?
And so if you, you know, depending on where you put the dam or where you put the airport
or what evacuation plan you have for a city and if something bad happens, like these decisions
have huge consequences.
Which banks you bail out?
Which banks you bail out?
which banks you don't bail out.
And so you always have these consequences, and people who have to make these decisions are often flying blind because they don't have any real sense of what's going to happen as a consequence of their decisions.
In contrast, if you can simulate a world and if you can run an experiment, if you can simulate the real world or some portion of it, like the highway system or the banking system or whatever, and then you can basically introduce change into that simulation and you can see what the consequences are.
It's very cheap to do that because Moore's Law and the collapse of chips and the rise of cloud computing and all these other things we've been talking about all of a sudden make it very cheap to run these simulations.
it's much cheaper to do it in the simulated world.
And then there are no consequences.
You run a simulation and everything goes wrong and everybody dies or the entire financial
system collapses or whatever.
It doesn't matter.
You just erase it and you run it again.
Yeah, you have infinite testability.
Well, I want to challenge that there is Elon Musk's simulation, in which case,
consequences are quite dire for us.
There is, yes, there is a scenario that we're all living in a simulation.
In which case, I would argue it's gone badly awry as evidenced by the current political
situation.
There is no do-over button in this simulation.
Yes.
And then you basically, again, you look at the progress of Morris Law and the rise of these new technologies and you say, okay, how about instead of running one simulation, let's run a million simulations or let's run a billion simulations and let's try every conceivable thing we can possibly think of and let's imagine, let's literally model all potential future states of the world. And then let's decide which one of those, which path is the one that leads to the best consequences. And so we can then make these very big real world decisions with a lot more foreknowledge of what will unfold afterwards.
maybe just to get concrete on some opportunities,
what are the other areas, and maybe it's life sciences,
or what are some of the other kind of more tangible areas
that you think in your term,
as you think about deploying this fund
or beyond over the next, you know, five to 10 years,
it might be interesting for, you know,
people to think about in the context of real-world applications
of this technology.
Yeah, so, as Mark was saying,
we're coming into this era of new platforms,
and with the intersection of health and computer science,
what we're saying is really exciting new platforms
around data and around basically,
you being able to get much more information about someone's health from a variety of techniques
that have been developed based on the kind of historic breakthroughs and sequencing the genome,
but beyond that as well, where we can get really, really powerful data about people
and understand them better.
And once you have that data about people,
when you can be predictive of diseases that they might get or things that are wrong,
and you aggregate that into a platform, then you can actually make new scientific discovery off it as well.
So that's one interesting area.
If you think about the AI platform itself, one of the things about it is the hardware that's been built for it,
or that's been built historically, is for a completely different kind of computer programming.
And we've seen Google already announce a chip to power their Deep Learning Cloud.
And, you know, similarly, there's new breakthroughs in quantum computing.
which at least on the surface look like they may be very promising for much more powerful deep learning systems and so forth.
So there's a lot of things that are coming out of these platforms.
And then, you know, as we get to a chip in everything, the platforms to run and manage and understand those chips are equally as exciting.
So, you know, one of the themes that's come up through here is that tech is reaching into places it never did before.
I mean, every company is becoming a tech company or they have tech inside or as Benedict likes to say,
say a tech's outgrowing the tech industry. The reality is it's permeating everywhere. And the question
I have for us is that we are founded on this thesis that software is eating the world. That's our
premise. And yet we've seemed to have been making a lot of hard investments. You know, if you
count things like Soiland, Oculus, NutraBox. So are we changing our thesis about hardware as a
result of this software eating the world? No, I don't think so. I mean, I think that what we see with
the companies that you've named are interesting. So Oculus, I think we would all agree that the
software component of Oculus is both more complex, has many more people working on it and is
kind of the core of the investment. Sometimes if you have a breakthrough technology, then you
require new hardware to actually support it. And that's the case there. And I think that
Soylent and NutraBox, both of them apply computer science techniques and information technology to get
people to optimal health, and that's what we're doing there. So I think we're big, big believers
that, you know, in the last 100 years, the great breakthroughs and knowledge have been the
breakthroughs of people like Alan Turing and Claude Shannon who gave us a new model of the world
and how to understand it. And companies that build on that fundamental knowledge breakthrough are
what we're about, and we'll continue to be about that. Even if some of them may ship their products in a box.
Yes, a package is not a technology.
Let's talk a little bit about SaaS.
As you've probably seen, there's been actually a bunch of acquisitions that's based recently.
But what's left to do there?
So is the new platform, the Salesforce.coms and others of the world, or are there actually
both kind of vertical applications and or are there other platforms that actually might exist
over time in that market?
So there's SaaS as a metaphorical in the cloud version of all the stuff that we had built over
the previous 30, 40 years.
So that's like workday sales force, success factors, the kind of big categories.
The thing that we believe that's changed as you go from on-premise to the cloud is the technology is so much easier to adopt that we're now seeing software applications for things that you just would never do as a software application because the cost of, as we used to say in the old day, screwing it in and paying the army of Accenture consultants.
to get it going, just wasn't worth it for, say, expense reporting, which, you know, Concurro, of course,
built a really powerful product in that. But like there was no packaged software for expense
reporting in the same way that there is now. And I think there's a gigantic number of categories
in everything that you do in business that can be automated in that way. In addition to that,
you can scale down to very, very small companies. Companies below thousands of employees never
bought Oracle financials. It would have been insane to do so, but they're absolutely buying
net suite and things like that. And then beyond that, you now it becomes economical and very
interesting to build vertical applications for industries. So to build an application that
revolutionizes, say, the real estate industry or something like that, or the construction
industry, is becoming extremely viable and not just as a niche business, but as a real venture
capital-based kind of activity.
One of the consequences that will be interesting to watch play out is that historically
enterprise software has been described as represented by companies like Oracle,
SAP, IBM.
Like, that stuff was really only accessible to the largest companies, the top 500 or
thousand companies in a country, and then in particular, only in a handful of countries.
Those businesses, their revenue and their customer base have always been dominated by,
you know, two or three thousand companies globally that are these, you know,
these giant multinational companies that we've all heard of.
So big companies had this sort of inherent advantage versus a lot of mid-sized of small companies.
And then companies in the U.S. and Western Europe had this big advantage versus companies
in other parts of the world where the companies, the large companies and the large companies in the U.S. and Western Europe could just afford to make technology investments that small and mid-sized companies all over the world couldn't make.
The sort of changes in SaaS that Ben described, they lead you to an interesting conclusion, which is it may actually be interesting for a smaller company or a company not in the U.S. or Western Europe to be able to adopt the next generation of SaaS and companies.
cloud technology. It's almost like the folks who've been able to skip landline
and telephones just go straight to mobile phones. You can just leapfrog the old stuff
because you never had it and you can just start using the new stuff out of the box.
And then the big established companies might have a harder time adapting because they've made
these giant investments in the old systems and it's hard to just jump to the new thing.
And so there may be a power shift happening from on the one hand, large companies to small
and medium companies that can now more aggressively adopt technology faster.
And then from companies in the U.S. and Western Europe to companies all over the world that
they can also do the exact same thing. And so at the very least, a leveling of the playing field and
possibly even a national shift in balance where small and mid-sized companies all over the world may all of a sudden get a lot
more competitive. So you've got kind of democratization on one point. And then to your point,
there's one version of internationalization, which is adoption across international communities.
So how do you think about then the other aspect of internationalization, which is company formation?
Should we then expect to see more new company formation outside the U.S., partly as a result of some of these trends,
and why won't we see or will we see 50 Silicon Valley's, you know, over the next, you know, 20, 30, 40 years?
And how do you all think about what the strategy should be to be those opportunities?
That would be probably the most amazing thing for the world that could happen in the realm of business and economics.
So we're hoping for it and certainly building kind of help trying to build technologies that would facilitate it.
And I think the world has never been kind of more ripe for that kind of thing.
having said that, look, there are real network effects, geographical network effects, and Silicon Valley obviously has the biggest one in technology.
And you always have to keep in mind, and this is something that gets lost, is there are no local technology companies, right?
There's nobody who sells, you know, internet search to Wyoming.
That's not like a viable thing.
So when you're competing globally, it does matter, you know, do you have the best people?
Do you have the best executives? Do you have the best engineers? Do you have access to money?
Like all these things become real competitive things. So we still are believers in Silicon Valley.
And we're very hopeful that the rest of the world grows and that we can, you know, participate in that as well.
But that's TBD.
It's an interesting macro kind of thing that's happening. A lot of the, you know, one of the really kind of negative stories is that there's basically the world is starved for innovation and growth.
One of the data points you point to on that is there's now $10 trillion.
of money being held in government bonds, governments all over the world, trading at what's called
negative yield. This is literally like the equivalent of a savings account where instead of the bank
paying you interest, you have to pay the bank interest to hold your money. And so there's literally
$10 trillion of capital parked around the world that is actually losing money as it sits there,
which means people cannot find enough productive places to deploy capital. The conventional view,
if you just pick up the newspaper and read the economics section, the horrible this is,
and how it means the world is start for growth. The optimistic side of it,
it is, there's $10 trillion of money sitting on the sidelines waiting for something productive
to be done with it. What could be productively done with it, right? New kinds of health care,
new kinds of education, right? New kinds of consumer products, new kinds of media, new kinds of art,
new kinds of science, you know, new kinds of, new kinds of self-driving cars, new kinds of housing,
all these things that need to be done all over the world. And so the world has never been more
ripe for a, you know, very large wave of innovation that would actually be quite easy to finance.
A lot of the times you just can't get things done because you don't have money. That's just
kind of the constant state of the world for a very long time. And now, ironically, we live in a world where
the opposite is true. There's actually, quote-unquote, too much money.
More money than ideas. Which really can't be true. It can't be true, right. Human creativity is
boundless. And so if you can get more smart people around the world educated and with the skills
required to do these things, and if you can get them in environments, either create new
environments to do that or figure out how to get more of the people from other places in
environments where they can do new things, we could do all kinds of new things globally. And it's something that we,
we hope to contribute to, but I think is a very big opportunity for the world.
So do you think we're getting to the point where it's kind of geopolitical risk and rule of law issues that limit adoption or deployment of some of these new technologies and other countries outside the U.S.?
It sounds like it's less so technological advancement?
Well, I would say there's bad news and good news.
So the bad news is we frequently have delegations of folks coming into the valley from all over the U.S. and all over the world.
And they basically come in and it's economic delegations of different kinds or politicians or whatever.
And they come in and they're like, okay, what can we do?
do to have our own Silicon Valley. And then you kind of sit down to them and you kind of go through,
you know, B, C, D, EF, you know, all these things. Well, you know, you want, you know, a rule of law.
You want, you know, ease of migration. You want ease of trade. You want deep investments,
deep investments in scientific research. You want no non-competes. You want fluid labor laws to let companies
very easily both hire and fire. You want the ability for entrepreneurs to be able to start
companies very quickly. You want bankruptcy laws that make it very easy to, to move on and start another
company. And at some point, the visitors get this stricken look on their face. And they're like,
Well, at the end of it, they're like, okay, but like, what if we want Silicon Valley, but we can't do any of those things?
And so that's the bad news.
Well, they can hire Donald Trump to run their country.
It's ironic that we have this guy running for president who would seriously move us backwards on a number of those topics.
So even we struggle with these things, right?
Like, I would argue the formula is fairly well known.
It's just people do not want to apply it for reasons that have a lot to do with politics and have a lot to do with, you know, with other issues.
The good news is it can be done.
And then the other good news is it is happening.
And there are very, very, very exciting things happening throughout much of the world.
They're, you know, very active now startup scenes all through, you know, South America, Brazil, Argentina, Buenos Aires.
Amazing things are happening in India.
There's all kinds of startup activity throughout the Middle East.
There's, you know, obviously China's been a gigantic success story.
Korea has all kinds of interesting things happening.
So there are lots and lots of extremely positive early indications of what's possible in many places all over the world.
That said, there are very big political questions about whether or not those founders are going to be able to be able to,
to operate an environment that's really going to let them succeed to the level that they should
be capable of doing.
A big reason that we raise the fund and are excited about the fund is it is a backing of our
core belief system here, which is we believe in the creativity and genius and intelligence
of human beings and the entrepreneurs that we see and come to Silicon Valley and around the
world.
And we believe that these people absolutely have the ability to change things and are changing
things and there's plenty of room to improve the world and there's plenty of ideas to do so.
And that's really what we're about with Fund Five.
So let's talk a little bit about kind of company building and founders in particular.
So, you know, undoubtedly you had a very distinct view of what types of founders you wanted
to back when you started the firm now seven years ago.
How has that evolved, if at all over time, you know, what has changed either in terms of the
types of founders you see or the types of qualities you see that actually make founders successful?
that's caused you to either augment or rethink some of the initial foundations for the firm.
You know, I think a lot of the things, we had this great advantage when we started the firm that we, you know, we ourselves were founders.
I think that we've probably gotten, I would say, more risk-tolerant in our view of founders over time, even though sometimes the risk.
What do you mean by that?
What do you mean by getting risk-tolerant?
Well, we have this thing we say at the firm, which is we're more, much more interested in the magnitude of the strength than the number of the weaknesses.
we always believe that intellectually, I think that some of the number of weaknesses were fairly
terrifying early on, just because, you know, you do have a lot of founders with a very small
amount of experience these days, which is also, you know, part of their strength in that it's hard
to rewrite the world if you're too steeped in the world. And so I think over time, we've kind
of doubled down on that. And really, you know, the founders who have figured out something really
important or who are true geniuses or have will to power that, you know, we can't even
contain in the room. You know, when they bring those things to the table, whatever is wrong
with them, we tend to overlook and work with them on that. And if they're strong enough in those
areas, you know, the really interesting thing for us has been, those weaknesses do go away
pretty quickly. And that's probably the biggest learning is I'd say we went in thinking
that, but we've gotten even more extreme in our commitment to that.
kind of philosophy. So almost in financial terms, you're buying volatility to a certain extent.
Well, I think buying volatility in the sense that we're buying people have world-class strengths
where we care about them. Right. And regardless of whatever else, there is volatility in that,
but you can have a different kind of volatility. You know, you can have people who have
gigantic weaknesses that are spectacular without having the strengths. And we're not trying to
buy that kind of volatility. How do you know, though, that they're going to be the ones to
actually build the companies at scale because there seems to be this inflection point where the very
thing that makes you a founder that's going to punch through this tough industry is also the thing
that's pretty much going to hold you back from really building your company in a really meaningful way
if you think you can do everything, you know, your way. And there seems to be an inherent
contradiction in that. I think that that would be right if founders did not evolve. So I think
and some don't. And some don't. And some don't. Like like the some don't, some don't and they get
stuck and they can't get past that point. But, you know, it's a real common characteristic in
great founders that they want to know absolutely everything about the company and how it works and,
you know, every knob and every button. And they really would like, have a strong desire to actually
be able to do every job in the company themselves if it came down to it. But those kind of founders
also have great ambition. And it's very logical and easy to understand that there's never actually
been a gigantic long, you know, a really important long-lasting company that had like five
employees that those just don't exist. And so if you're going to have to have a bigger company than that,
you have to think about the company not only, you know, from the scale perspective, but from
the perspective of the people working there. And how are you going to get great people to work with
you if you're literally making every decision in the company? And I think that, look, not every
founder can let go of that. And sometimes it's a psychological flaw rather than a desire for
greatness. And if it's a psychological flaw that they can't overcome, then, you know, it's just like
any flaw that any of us have, you know, we can't stop eating ice cream or whatever. And, you know,
there's something we can do at that point, like we can give them the logical explanation, but they've got
to fix themselves. One of the things that we've seen even in the short time that the firm has been in
business is companies staying private longer, taking longer time to IPO. What are some of the
implications of that on the company building process. How do you kind of balance that new reality,
if it is a new reality around how companies stay private with how you think about building management
teams and other issues around the company? Yes, I think this gets back to probably one of the
more neglected parts of company building, which is like, what is the company culture,
what does it believe, what's our way of doing things? You know, when we come to work every
day, what does quality mean? How do we prosecute an opportunity? And the kind of philosophy
onboarding, training into that culture and so forth.
And so you kind of have to develop a philosophy like what kind of employees do you want?
How do you want them to behave when they get there?
How do people contribute?
As we're getting close to wrap it up here, what would be one piece of advice that you might
give either from a management perspective, from a go-to-market perspective?
What would be a takeaway for people listening to this podcast?
From a management perspective, I think the most common mistake that founders make is they make
decisions based on management decisions and organizational design.
decisions based on very kind of proximate perspective. So what's my perspective? What's a person I'm
talking to? Perspective. What's my HR person's perspective? Without like taking the time to go,
okay, like, how does everybody in the entire company see this decision and how will they see it
once it's made? Is it motivating people in the way that I think it will? And let's look past the
person I'm talking to feeling good about what I'm saying and really make this for the long-term health
of the organization.
The single biggest strategic piece of advice we just see across all of our companies is literally
people just need to raise prices. People need to charge more for their products and services.
The good news is you have all these new founders with many different backgrounds who have
come in. Many of them have never run companies before, run Salesforce's before. And so they have
these extremely sophisticated views on things like products and design and engineering. And then I
think in some cases, relatively naive views on how to actually prosecute a campaign to be able
to get the world to use your product. And so the temptation we see from many founders,
is to have a one-dimensional view of what I call a one-dimensional view of the relationship between price and volume,
which is if I price my product cheap, then I sell more of it because the assumption is just that people just make purchase decisions based on cost.
And so you drive down prices, you drive up volume.
And by the way, a lot of the history of the tech industry, like the chip industry is drive-down prices, drive-up volume.
But a lot of startups really suffer from having that view.
Instead, we encourage companies to adopt what I call kind of the two-dimensional view, which is the advantage of raising prices.
actually, there's a couple advantages.
So one big advantage, if you raise prices,
you can afford a bigger sales and marketing effort.
A lot of companies have prices that are actually too low
to be able to mount the kind of sales and marketing campaign
required to get people to ever actually buy the product.
And I call this the too hungry to eat problem, right?
I'm not selling enough,
but I'm not selling enough because I don't have the sales marketing coverage required
to actually get the product out there.
And I don't have that because I'm charging too little.
As a consequence, I'm not selling any,
despite my low prices.
The other really interesting thing is that for a very large number of products,
it turns out if you charge higher prices, the customers take the product more seriously.
They impute more value into it when they're making their purchase decision.
And then once they purchase, they've made a bigger commitment to it.
In particular, anybody selling anything to businesses, businesses will take something that they had to pay a lot of money for a lot more seriously than something that they didn't have to pay very much money for.
So you can get a much higher level of engagement and stickiness and actual use of your product if you charge more.
Going through this, this definitely has felt like swimming upstream for the last several years.
We see some glimmers that more folks are starting to figure this out.
Okay, well, that's all we have time for. I think this is the first time I've actually had all you guys together on the podcast since we did our fifth anniversary podcast a couple years ago.
Kind of amazing how much has changed even in that short amount of time. So thank you. Thanks everyone.
Thank you, Sol.