Lex Fridman Podcast - #250 – Peter Wang: Python and the Source Code of Humans, Computers, and Reality
Episode Date: December 24, 2021Peter Wang is the co-founder & CEO of Anaconda and one of the most impactful leaders and developers in the Python community. Also, he is a physicist and philosopher. Please support this podcast by che...cking out our sponsors: - Quip: https://getquip.com/lex to get first refill free - Magic Spoon: https://magicspoon.com/lex and use code LEX to get $5 off - GiveWell: https://www.givewell.org/ and use code LEX to get donation matched up to $1k - Four Sigmatic: https://foursigmatic.com/lex and use code LexPod to get up to 60% off - BetterHelp: https://betterhelp.com/lex to get 10% off EPISODE LINKS: Peter's Twitter: https://twitter.com/pwang Anaconda's Website: https://www.anaconda.com/ Books & resources mentioned: Zen and the Art of Motorcycle Maintenance (book): https://amzn.to/3EnCELK Lila (book): https://amzn.to/30VKIpE PODCAST INFO: Podcast website: https://lexfridman.com/podcast Apple Podcasts: https://apple.co/2lwqZIr Spotify: https://spoti.fi/2nEwCF8 RSS: https://lexfridman.com/feed/podcast/ YouTube Full Episodes: https://youtube.com/lexfridman YouTube Clips: https://youtube.com/lexclips SUPPORT & CONNECT: - Check out the sponsors above, it's the best way to support this podcast - Support on Patreon: https://www.patreon.com/lexfridman - Twitter: https://twitter.com/lexfridman - Instagram: https://www.instagram.com/lexfridman - LinkedIn: https://www.linkedin.com/in/lexfridman - Facebook: https://www.facebook.com/lexfridman - Medium: https://medium.com/@lexfridman OUTLINE: Here's the timestamps for the episode. On some podcast players you should be able to click the timestamp to jump to that time. (00:00) - Introduction (06:49) - Python (10:20) - Programming language design (30:22) - Virtuality (40:22) - Human layers (47:21) - Life (52:45) - Origin of ideas (55:17) - Eric Weinstein (1:00:16) - Human source code (1:04:13) - Love (1:18:32) - AI (1:31:55) - Meaning crisis (1:54:28) - Travis Oliphant (2:00:53) - Python continued (2:30:36) - Best setup (2:37:54) - Advice for the youth (2:46:28) - Meaning of Life
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The following is a conversation with Peter Wang, one of the most impactful leaders and developers in the Python community.
Former physicist, current philosopher, and someone who many people told me about and praised as a truly special mind that I absolutely should talk to.
Recommendations ranging from Charles Hallefont to Eric Weinstein. So, here we are. And now, a quick few second mention of eSponsor.
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This is the Lex Friedman podcast and here is my conversation
with Peter Wang.
You're one of the most impactful humans in the Python ecosystem. So you're an engineer, leader of engineers, but you're also a philosopher.
So let's talk both in this conversation about programming and philosophy.
First programming. What to you is the best or maybe the most beautiful feature
of Python or maybe the thing they made you fall in love
or stay in love with Python?
Well, those are three different things.
What I think is the most beautiful,
what made me fall in love when we stay in love.
When I first started using it was when I was a C++
computer graphics performance nerd in the 90s, in the
late 90s. That was my first job out of college. We kept trying to do more and more abstract and
higher order programming in C++, which at the time was quite difficult with templates,
the compiler support wasn't great, etc. When I started playing around with Python, that
was my first time encountering
really first class support for types, for functions,
and things like that,
and it felt so incredibly expressive.
So that was what kind of made me fall in love
with a little bit.
And also, once you spend a lot of time
in a C++ dev environment,
the ability to just whip something together
that basically runs and works the first time is amazing.
So really productive scripting language.
I mean, I knew Pearl, I knew Bash, I was decent at both, but Python just made everything.
It made the whole world accessible.
I could script this and that and the other network things, little hard drive utilities, I
could write all these things in the space of an afternoon.
And that was really, really cool.
That's what made me fall in love.
Is there something specific that you could put your finger on that you're not programming in
Pearl today? Like why Python for scripting?
I think there's not a specific thing as much as the design motif of both the creator of
the language and the core group of people that built the standard library around him. There was definitely, there was a taste to it. I mean, Steve Jobs, you know,
used that term, you know, in some of the arrogant way, but I think it's a real thing
that it was designed to fit a friend of mine actually expressed this really well. He said,
Python just fits in my head. And there's nothing better to say than that. Now, now people might
argue modern Python, there's a lot more complexity, but certainly as version 5152 I think is my first version, that fit in my head very easily.
So that's what made me fall in love with it.
Okay, so the most beautiful feature of Python that made you stay in love.
Like over the years, what has like, you know, you do a double take, you return to often as a thing that just brings you
a smile?
I really still like the ability to play with meta classes and express higher order things
when I have to create some new object model to model something, right?
It's easy for me because I'm pretty expert as a Python programmer.
I can easily put all sorts of lovely things together
and use properties and decorators and other kinds of things,
and create something that feels very nice.
So that, to me, I would say that's tied
with the NumPy and vectorization capabilities.
I love thinking in terms of the matrices
and the vectors and these kind of data structures.
So I would say those two are kind of tied for me.
So the elegance of the non-py data structure, like slicing through the different multi-dimensional.
Yeah, there's just enough things there. It's like a very simple, comfortable tool.
It's easy to reason about what it does when you don't stray too far field.
Can you put your finger on how to design a language such that it fits in your head?
Certain things like the colon or the certain notation aspects of Python that just kind
of work.
Is it something you have to kind of write out on paper, look and say it's just right.
Is it a taste thing or is there a systematic process?
What's your sense? I think it's more of a taste thing.
But one thing that should be said is that you have to pick your audience.
The better defined the user audience is or the users are,
the easier it is to build something that fits in their minds
because their needs will be more compact and coherent.
It is possible to find a projection, a compact projection for their needs. The more
diverse the user base, the harder that is. And so as Python has
grown in popularity, that's also naturally created more complexity
as people try to design any given thing. There will be multiple
valid opinions about a particular design approach. And so I do
think that's the that's the downside of popularity. It's
almost an intrinsic aspect of the complexity of the problem. Well, at the very beginning, aren't you
an audience of one? Isn't ultimately aren't all the greatest projects in history? We're just solving
a problem to you yourself. Well, so Clay Shurkey in his book on crowdsourcing or in his kind of
thoughts on crowdsourcing, he identifies the first step of crowdsourcing is me first collaboration. You first have to make something that works
well for yourself. It's very telling that when you look at all of the impactful big projects
while they're fundamental projects now in the SciPy and PyData ecosystem, they all started
with the people in the domain trying to scratch their own itch. And the whole idea of
scratching your own itch is something that the open source or the free software
world is known for a long time. But in the scientific computing areas, you know,
these are assistant professors or electrical engineering grad students. They
didn't have really a lot of programming skill necessarily, but Python was just
good enough for them to put something together that fit in their domain, right?
So it's almost like a it's a necessity as a mother of invention aspect. And just good enough for them to put something together that fit in their domain. Right?
So it's almost like a, it's a necessity of the mother of invention aspect.
And also it was a really harsh filter for utility and compactness and expressiveness.
Like it was too hard to use, then they wouldn't have built it because it was just too much
trouble.
Right?
It was a side project for them.
And also necessity creates a kind of deadline.
It seems like a lot of these projects are quickly thrown together in the first step. And that,
even though it's flawed, that just seems to work well for software projects.
Well, it does work well for software projects in general. And in this particular space,
but one of my colleagues Stan Sebert identified this, that all the projects in the SciPy ecosystem,
you know, if we just rattle them off, there's NumPy, there's SciPy built by different collaborations of people, although
Travis is the heart of both of them, but NumPy coming from New America, Numera, these are different people.
And then you've got Pandas, you've got Jupiter or iPad on, there's MapHotLib, there's just so
many others I'm, you know, not going to adjust this, I just named them all.
But all of them are actually different people.
And as they rolled out their projects,
the fact that they had limited resources
meant that they were humble about scope.
Famous hacker, Jamie Zowisky once said that every geek's dream is to build
the ultimate middleware.
And the thing is with these scientists turn programmers, every geek's dream is to build the ultimate middleware.
And the thing is with these scientists
turn programmers, they had no such thing.
They were just trying to write something
that was a little bit better for what they needed,
the MATLAB, and they were gonna leverage
what everyone else had built.
So naturally, almost in kind of this annealing process
or whatever, we built a very modular cover
of the basic needs of a scientific computing library.
If you look at the whole human story, how much of a leap is it?
We've developed all kinds of languages, all kinds of methodologies for communication.
It's just kind of like, grew this collective intelligence, the association grew, it expanded,
wrote a bunch of books, and now we tweet.
How big of a leap is programming if programming is yet another language?
Is it just a nice little trick that's temporary in our human history? Or is it like a big leap in the
almost us becoming another organism at a higher level of abstraction? Something else? something else. I think the act of programming or using grammatical constructions of some underlying
primitives, that is something that humans do learn, but every human learns this. Anyone who can
speak learns how to do this. What makes programming different has been that up to this point,
when we try to give instructions to computing systems, all of our computers, well, actually, this is not quite true,
but I'll first say it and then I'll tell you why it's not true.
But for the most part, we can think of computers
as being these iterated systems.
So when we program, we're giving very precise instructions
to iterate its systems that then run it
in comprehensible speed and run those instructions.
In my experience, some people are just better equipped to model systematic iterated systems
in their head.
Some people are really good at that and other people are not.
And so when you have, for instance, sometimes people have tried to build systems that make
programming easier by making it visual drag and drop.
And the issue is you can have a drag and drop thing, but once you start having to iterate
the system with conditional logic, handling case statements and branch statements and all
these other things, the visual drag and drop part doesn't save you anything.
You still have to reason about this giant iterated system with all these different conditions
around it.
That's the hard part, right?
So handling iterated logic, that's the hard part. The languages we use then emerge to give us ability
and capability over these things. Now, the one exception to this rule, of course, is the
most popular programming system in the world, which is Excel, which is a data flow and a data
driven immediate mode, data transformation oriented programming system. And this is actually not an accident that that system is the most popular programming system,
because it's so accessible to a much broader group of people.
I do think as we build future computing systems,
you're actually already seeing this a little bit,
it's much more about composition of modular blocks.
They themselves actually maintain all their internal state, and the interfaces
between them are while-defined data schemas.
And so to stitch these things together using like IFTTT or Zapier or any of these kind of,
you know, I would say compositional scripting kinds of things, I mean, hypercard was also
a little bit in this vein.
That's much more accessible to most people.
It's really that implicit state that's so hard for people to track.
Yeah, okay, so that's modular stuff,
but there's also an aspect where you're standing on the shoulders of giants.
You're building like higher and higher levels of abstraction,
but you do that a little bit with language.
So with language, you develop ideas,
philosophies from Plato and so on,
and then you leverage those philosophies as you try to from Plato and so on. And then you kind of leverage those philosophies
as you try to have deeper and deeper conversations. But with programming, it seems like you can
build much more complicated systems, like without knowing how everything works, you can build
on top of the work of others. And it seems like you're developing more and more sophisticated
expressions, ability to express ideas in a computational space.
I think it's worth pondering the difference here between complexity and complication.
Sure.
Okay.
Back to Excel.
Well, not quite back to Excel, but the idea is, when we have a human conversation, all languages for humans emerged to support human
relational communications,
which is that the person we're communicating with
is a person and they would communicate back to us.
And so we sort of hit a resonance point, right,
when we actually agree on some concepts.
So there's a messiness to it and there's a fluidity to it.
With computing systems, when we express something to the computer and it's wrong, we just
try again.
So we can basically live many virtual worlds of having failed at expressing our set of
else to the computer until the one time we express ourselves right.
Then we kind of put it in production and then discover that it's still wrong a few days
down the road.
So I think the sophistication of the things
that we build with computing,
one has to really pay attention to the difference
between when an end user is expressing something
onto a system that exists versus when they're extending
the system to increase the system's capability
for someone else to that interface with.
And we happen to use the same language
for both of those things,
in most cases, but it doesn't have to be that.
Next cell is actually a great example of this,
of a counterpoint to that.
Okay, so what about the idea of, you said messiness.
Wouldn't you put the software 2.0 idea,
this idea of machine learning,
into the further and further steps into the world
of messiness.
The same kind of beautiful messiness of human communication isn't that what machine learning
is, is building on levels of abstraction that don't have messiness in them, that at the
operating system level, then there's Python in the programming languages that have more and more power. But then finally, there's neural networks that ultimately work
with data. And so the programming is almost in the space of data. And the data is allowed to be messy.
Isn't that a kind of program? So the idea of software 2.0 is a lot of the programming happens
software 2.0 is a lot of the programming happens in the space of data.
So back to Excel, all roads lead back to Excel in the space of data and also the hyperparameters of the neural networks. And all of those allow the same kind of messiness of human communication
allows. It does, but you know, my background is a physics. I took like two CS courses in college.
So I don't have, now I did cram a bunch of CS
in prep when I applied for grad school,
but still, I don't have a formal background
in computer science, but what I have observed
in studying programming languages and programming systems
and things like that, is that there seems to be this triangle.
It's one of these beautiful little iron triangles
that you find in life sometimes.
And it's the connection between the code correctness
and kind of expressiveness of code,
the semantics of the data,
and then the kind of correctness or parameters
of the underlying hardware compute system.
So there's the algorithms that you wanna apply,
there's what the bits that are stored on whatever media actually represent.
So, the semantics of the data within the representation.
And then, there's what the computer can actually do.
In every programming system, every information system ultimately finds some spot in the middle
of this little triangle.
Sometimes, some systems collapse them into just one edge.
I'm including humans as a system.
No, no, I'm just thinking about computing systems here.
And the reason I bring this up is because
I believe there's no free lunch around this stuff.
So if we build machine learning systems
to sort of write the correct code
that is at a certain level of performance,
so it'll sort of select, right?
With the hyper parameters we can tune kind of how we want the performance boundary
and escalate it to look like for transforming some set of inputs into certain kinds of outputs.
That training process itself is intrinsically sensitive to the kinds of inputs we put into it.
It's quite sensitive to the boundary conditions we put around the performance.
So I think even as we move to using automated systems to build this transformation, as opposed
to humans explicitly from a top-down perspective, figuring out, well, this schema and this database
and these columns get selected for this algorithm, and here we put a, you know, a Fibonacci heap
for some other thing, human design or computer design. Ultimately, what we hit, the boundaries
that we hit with these information systems
is when the representation of the data hits the real world, is where there's a lot of slop and a lot of interpretation.
And that's where actually I think a lot of the work will go in the future, is actually understanding kind of how to better,
in the view of these live data systems, how to better encode the semantics of the world for those things.
I'll be less about the details of how we write a particular SQL query.
Okay, but given the semantics of the real world and the messiness of that, what does the word
correctness mean when you're talking about code? There's a lot of dimensions to correctness.
Historically, and this is one of the reasons I say that we're coming to the end of the era of
software, because for the last 40 years or so, software correctness was really defined about functional correctness.
All right, a function.
It's got some inputs.
Does it produce the right outputs?
If so, then I can turn it on, hook it up to the live database, and it goes.
And more and more now, we have, I mean, in fact, I think the bright line in the sand between
machine learning systems or modern data-driven systems versus classical software systems is that the values of the input actually have to be considered
with the function together to say this whole thing is correct or not.
And usually there's a performance SLA as well.
Like did it actually finish making the SLA?
Sorry, service level agreement.
So it has to return within some time.
You have a 10 millisecond time budget to return a prediction of this level of accuracy. Right. So these are things that were not traditionally
in most business computing systems for the last 20 years at all. People didn't think about it.
But now we have value dependence on functional correctness. So that question of correctness is
becoming a bigger and bigger question. What is that map to the end of software? We've thought about software as just this thing
that you can do an isolation with some test trial inputs
and in a very sort of sandbox environment.
And we can quantify how does it scale,
how does it perform, how many nodes do we need to allocate
if we want to scale this many inputs.
When we start turning this stuff into prediction systems,
real cybernetic systems, you're going to find scenarios
where you get inputs that you don't want to spend
a little more time thinking about.
You're going to find inputs that are not,
it's not clear what you should do, right?
So then the software has a varying amount of runtime
and correctness with regard to input.
And that is a different kind of system altogether.
Now it's a full on cybernetic system.
It's a next generation information system
that is not like traditional software systems. Can you maybe describe what is a cybernetics system, it's a next generation information system that is not like traditional software systems.
Can you maybe describe what is a cybernetics system? Do you include humans in that picture?
So is it human in the loop kind of complex mess of the whole kind of interactivity of
software with the real world or is it something more concrete?
Well, when I say cybernetics, I really do mean that the software itself is closing the
observed orient to decideact loop by itself.
So humans being out of the loop is, is the fact what, for me, makes it a cybernetic
system.
And humans are out of that loop.
When humans are out of the loop, when the machine is actually sort of deciding on its
own, what it should do next to get more information, that makes it a cybernetic system.
So we're just at the dawn of this, right? I think everyone talking about MLAI, it's great,
but really the thing we should be talking about is when we really enter the cybernetic era,
and all of the questions of ethics and governance and all correctness and all these things,
they really are the most important questions.
Okay, can we just linger on this? What does it mean for the human to be out of the loop
in a cybernetic system?
Because isn't the cybernetic system that's ultimately
accomplishing some kind of purpose that at the bottom,
the turtles all the way down,
at the bottom turtle is a human.
Well, the human may have set some criteria,
but the human wasn't precise.
So for instance, I just read the other day
that earlier this year, or maybe it was last
year at some point, the Libyan army, I think, sent out some automated killer drones with
explosives.
And there was no human in the loop at that point.
They basically put them in a chieo-fenced area, said, find any moving target, like a truck
or vehicle, it looks like this, and boom, that's not a human in the loop, right? So increasingly, the less human there is in the loop, the more concerned you are about these
kinds of systems, because there's unintended consequences, like less the original designer
and engineer of the system is able to predict, even one with good intent is able to predict
the consequences of such a system.
Is that it?
That's right. There are some software systems that run without humans in the loop that are quite complex.
That's like the electronic markets.
We get flash crashes all the time.
We get in the heyday of high-frequency trading.
There's a lot of market microstructure.
People doing all sorts of weird stuff that the market designers had never really thought
about contemplated or intended.
When we run these full-on systems with these automated trading bots,
now they become automated killer drones and then all sorts of other stuff,
we, we are, that's what I mean by we're at the dawn of the cybernetic era and the end of the era of just pure software.
Are you more concerned if you're thinking about cybernetic systems or even like self-replicating systems,
so systems that aren't just doing a particular task but are able to sort of multiply and scale
in some dimension in the digital or even the physical world. Are you more concerned about
like the lobster being boiled? So a gradual with us not noticing Collapse of civilization or a big explosion
like oops
Kind of a big thing where everyone notices, but it's too late. I think that
It will be a different experience for different people. I
do I do
Share a common point of view with some of the climate, you know, people who are
concerned about climate change and just the big existential risks that we have. But unlike a lot
of people who share my level of concern, I think the collapse will not be quite so dramatic as some
of them think. And what I mean is that I think that for certain tiers
of, let's say economic class or certain locations
in the world, people will experience dramatic
collapse scenarios.
But for a lot of people, especially in the developed world,
the realities of collapse will be managed.
There will be narrative management around it
so that they essentially insulate.
The middle class will be used to insulate the upper class from the pitch forks and the
flaming torches and everything.
It's interesting because my specific question wasn't as general as my question was more
about cybernetics than software.
It's interesting, but it would nevertheless perhaps be about class.
So the effect of algorithms might affect certain classes more than others.
Absolutely.
I was more thinking about whether it's social media algorithms or actual robots.
Is there going to be a gradual effect on us where we wake up one day and don't recognize
the humans we are?
Or is it something truly dramatic where there's, you know,'s a meltdown of a nuclear reactor kind of thing,
Chernobyl, like catastrophic events that are almost bugs in a program that scaled itself too quickly.
Yeah, I'm not as concerned about the visible stuff. And the reason is because the big visible
explosions, I mean, this is the
thing I said about social media is that, you know, at least with nuclear weapons, when
a newk goes off, you can see it and they're like, well, that's really, wow, that's kind
of bad, right? I mean, Oppenheimer was reciting the Bhagavad Gita, right? When he saw one
of those things go off. So we can see, Nukes are really bad.
He's not reciting anything about Twitter.
Well, but right, but then when you have social media, when you have all these different things
that conspire to create a layer of virtual experience for people that alienates them from,
you know, reality and from each other, that's very pernicious. It's impossible to see, right?
And it totally slowly gets in there. So you've written about this idea of virtuality on this topic,
which you define as the subjective phenomenon
of knowingly engaging with virtual sensation and perception
and suspending or forgetting the context that it's some
of a legum.
So let me ask, what is real?
Is there a hard line between reality and virtuality?
Like perception drifts from some kind of physical reality.
We have to kind of have a sense of what is the line that's to we've gone too far.
Right, right. For me, it's not about any hard line about physical reality
as much as a simple question of, does the particular technology help people connect in a more integral
way with other people, with their environment, with all of the full spectrum of things around
them?
It's less about, oh, this is a virtual thing and this is a hard, real thing, more about
when we create virtual representations of the real things, always, some things are lost in translation. Usually,
many, many dimensions are lost in translation, right? We're now coming to almost two years of
COVID people on Zoom all the time. You know, it's different when you meet somebody in person,
then when you see them on, I've seen you on YouTube lots, right? But this thing in person is
very different. And so I think when we engage in virtual experiences all the time and we only do that, there
is absolutely a level of embodiment.
There's a level of embodied experience and participatory interaction that is lost.
And it's very hard to put your finger on exactly what it is.
It's hard to say, oh, we're going to spend $100 million building a new system that captures
this five percent better higher fidelity human expression.
No one's going to pay for that, right? So when we rush madly into a world of simulacrum and
virtuality, you know, the things that are lost are, it's difficult. Once everyone moves there,
it can be hard to look back and see what we've lost. So is it a recoverably lost or rather when you put it all on the table, is it possible
for more to be gained than is lost?
If you look at video games, they create virtual experiences that are surreal and can bring
joy to a lot of people, can direct a lot of people and can get people to talk a lot of
trash.
So they can bring out the best people and can get people to talk a lot of trash.
So they can bring out the best than the worst in people.
So is it possible to have a future world
where the pros outweigh the cons?
It is.
I mean, it's possible to have that in the current world.
But when literally trillions of dollars of capital
are tied to using those things to
groom the worst of our inclinations and to attack our weaknesses in the limbic system to create these things into id machines versus connection machines
then then the those good things don't stand a chance.
Can you make a lot of money by building connection machines?
Is it possible? Do you think?
by building connection machines, is it possible to bring out the best in human nature to create fulfilling connections and relationships in the digital world and make a shit on a money?
If I figured out, I'll let you know. What's your intuition without
concretely knowing with the solution? My intuition is that a lot of our digital technologies give us the ability to have synthetic
connections or to experience virtuality. They have co-evolved with sort of the human expectations.
It's sort of like sugary drinks. As people have more sugary drinks, they need more sugary drinks
to get that same hit, right? So with these virtual things, and with TV and fast cuts and, you know, TikToks,
and all these different kinds of things,
we're co-creating essentially humanity
that sort of asks and needs those things.
And now it becomes very difficult to get people to slow down.
It gets difficult for people to hold their attention
on slow things and actually feel
that embodied experience, right?
So mindfulness now more than ever
is so
important in schools and as a therapy technique for people because our environment has been accelerated.
And McLeuain actually talks about this in the electric environment of the television. And that was
before TikTok and before front facing cameras. So I think for me the concern is that it's not that
we can ever switch to doing something better, but more of the
humans and technology, they're not independent of each other.
The technology that we use kind of molds what we need for the next generation of technology.
Yeah, but humans are intelligent and they're introspective and they can reflect on the experiences
of their life.
So for example, there's been many years in my life where I ate an excess amount of sugar. And then a certain moment I woke up and said, uh, why do I keep doing this?
This doesn't feel good. I like long term. And I think, uh, so going through the TikTok process of
realizing, okay, when I short my attention span, actually that does not make me feel good longer term and realizing
that and then going to platforms, going to places that are away from the sugar.
And so doing you can create platforms that can make a lot of money to help people wake
up to what actually makes them feel good long term, develop, grow as human beings. And it just feels like humans are more intelligent than mice looking for cheese.
They're able to sort of think, I mean, we can think, we can contemplate our mortality,
we can contemplate things like long term love and we can have a long term fear of certain things
like mortality, we can contemplate whether the experience is the sort of the drugs of daily life that we've been partaking in is making us happier, a better people.
And then once we contemplate that, we can make financial decisions in using services and paying for services that are making us better people. So it just seems that we're in the very first stages
of social networks that just way
able to make a lot of money really quickly.
But in bringing out sometimes the bad parts of human nature,
they didn't destroy humans.
They just fed everybody a lot of sugar.
And now everyone's gonna wake up and say,
hey, we're gonna
start having like sugar free social media. Right. Right. Well, there's a lot to unpack
there. I think some people certainly have the capacity for that. And I certainly think,
I mean, it's very interesting even the way you said it. You woke up one day and you thought,
well, this isn't feel very good. Yeah. Well, it's still your limbic system saying this
isn't feel very good. Right. You have a cat brains worth of neurons around your gut, right? And so maybe that saturated and that was telling you, hey, this isn't good.
Humans are more than just mice looking for cheese, or monkeys looking for sex and power, right?
So, now you're, now a lot of people argue with you on that one, but yes.
But we're more than just that, but we're at least that, and we're very, very seldom not that. So my, I don't actually disagree with you that we could be
better and that we can, that better platform to exist, and people are voluntarily
noping out of things like Facebook and noping out. Yeah. It's awesome verb. It's a great term. Yeah,
I love, I use it all the time. You're welcome. I know about it. I want to know about it, right? It's going to be a hard pass.
And that's great, but that's again, to your point, that's the first generation of front-facing
cameras of social pressures, and you as a self-starter, self-aware adult have the capacity to say,
yeah, I'm not going to do that.
I'm going to go and spend time on long-form reads.
I'm going to spend time managing my attention. I'm not gonna do that. I'm gonna go and spend time on long-form reads. I'm gonna spend time managing my attention.
I'm gonna do some yoga.
If you're a 15-year-old in high school
and your entire social environment
is everyone doing these things,
guess what you're gonna do?
You're gonna have to do that
because your limbic system says,
hey, I need to get the guy or the girl or the whatever
and that's what I'm gonna do.
And so, one of the things that we have to reason about here
is the social media systems, or
social media, I think, is a first encounter with a technological system that runs a bit of a loop
around our own cognition and attention. It's not the last. It's far from the last.
And it gets to the heart of some of the philosophical Achilles' heel of the Western philosophical
system, which is each person gets to make their own determination.
Each person is an individual that's sacrosanct and their agency and their solvent to eat
all these things.
The problem with these systems is they come down and they are able to manage everyone
on mass.
And so every person is making their own decision, but together the bigger system is causing
them to act with a group dynamic.
That's very profitable for people.
So this is the issue that we have is that our philosophies are actually not geared to
understand what is it for a person to be to have a high trust connection as part of a collective?
And for that collective, to have its right to coherency and agency.
That's something like when a social media app causes a family to break apart, it's done
harm to more than just individuals.
So that concept is not something we really talk about or think about very much, but that's
actually the problem is that we're vaporizing molecules into atomic units and then we're hitting all the atoms with certain things
That's like yeah, well that person chose to look at my app
So our understanding of human nature is at the individual level
Emphasized to the individual too much because ultimately society operates at the collective level and these apps do as well
and the apps do as well. And the apps do as well.
So for us to understand the progression and development
of this organism we call human civilization,
we have to think of the collective level too.
I was a multi-tiered.
Multi-tiered.
So individual as well.
Individuals, family units, social collectives,
and on the way up.
Okay.
So you've said that individual humans are multi-layered.
It's susceptible to signals and waves and multiple strata,
the physical, the biological, social, cultural, and intellectual.
So sort of going along these lines, can you describe the layers of the cake that is human being?
Mm-hmm.
And maybe the human collective human society?
So I'm just stealing wholesale here from Robert Persig,
who is the author of Zen and the Aramorosigal Maintenance,
and his follow-on book,
his sequel to it called Lila,
he goes into this in a little more detail,
but it's a crude approach to thinking about people,
but I think it's still an advancement
over traditional
subject-object metaphysics, where we look at people as a dualist would say, well, is
your mind, your consciousness, is that just merely the matter that's in your brain,
or is there something more beyond that? And they would say, yes, there's a soul,
sort of, ineffable soul, beyond just merely the physical? And then, and I'm not one of those people, right?
I think that we don't have to draw a line between our things only this or only that.
Collective of things can emerge structures and patterns that are just as real as the underlying pieces,
but, you know, they're transcendent, but they're still of the underlying pieces.
So your body is this way. I mean, we just know physically,
you're, you consist of atoms and, uh, and, and whatnot. And then the atoms are arranged into molecules,
which then arrange into certain kinds of structures that seem to have a homeostasis to them,
called cells, and those cells form, you know, sort of biological structures. Those biological
structures give your body its physical ability and biological ability to consume energy
and to maintain homeostasis. But humans are social animals. I mean, human by themselves is not very
long for the world. So we also part of our biology is why or to connect to other people.
From the mirror neurons to our language centers and all these other things. So we are intrinsically,
there's a layer, there's a part of us that
wants to be part of a thing if we're around other people not saying a word, but they're just up and down jumping and dancing and laughing. We're gonna feel better, right?
And they didn't, there was no exchange of physical
anything. They didn't give us like five atoms of happiness, right?
But there's an induction in our own sense of self that is at that social level.
And then beyond that,
Persic puts the intellectual level
kind of one level higher than social.
I think they're actually more intertwined than that,
but the intellectual level is,
the level of pure ideas that you are a vessel for memes,
you're a vessel for philosophies,
you will conduct yourself in a particular way.
I mean, I think part of this is
if we think about it from a physics perspective, you're
not, you know, there's the joke that physicists like to approximate things.
And we'll say, well, approximate a spherical cow, right?
You're not a spherical cow, you're not a spherical human.
You're a messy human.
And we can't even say what the dynamics of your emotion will be unless we analyze all
four of these layers, right?
If it's, if you're, if you're Muslim and a certain time of day, guess what?
You're gonna be on the ground kneeling and praying, right?
And that is nothing to do with your biological need
to get on the ground or physics of gravity.
It is an intellectual drive that you have.
It's a cultural phenomenon and an intellectual belief
that you carry.
So that's what the four layers stack is all about.
It's at a person's not only one of these things.
They're all of these things at the same time.
It's a superposition of dynamics that run through us that make us who we are.
So, there's no layers, it's special.
Not so much no layers, special.
Each layer is just different.
But we are...
Each layer gets the participation trophy.
Yeah, each layer is a part of what you are.
You are a layer cake, right, of all these things.
And if we try to deny, right, so many philosophies
do try to deny the reality of some of these things, right?
Some people say, well, we're only atoms.
Well, we're not only atoms because there's
a lot of other things that are only atoms.
I can reduce the human being to a bunch of soup.
And it's not, they're not the same thing,
even though it's the same atoms. So I of soup, and it's not, they're not the same thing, even those same atoms.
So I think the order and the patterns that emerge within humans to understand, to really
think about what a next generation of philosophy would look like, that would allow us to reason
about extending humans into the digital realm or to interact with autonomous intelligences
that are not biological nature.
We really need to appreciate these appreciate that human, what human
beings actually are, is the superposition of these different layers. You mentioned consciousness.
Are each of these layers of cake conscious? Is consciousness a particular quality of one of the
layers? Is there like a spike if you have a conscious and detector at these layers, or is something
that just permeates all of these layers and just takes different form. I believe what humans experience as consciousness
is something that sits on a gradient scale of a general principle in the universe that seems to
look for order and reach for order when there's an excess of energy. It would be odd to say a
proton is alive, right?
To be odd to say like this particular atom or molecule of hydrogen gas is alive.
But there's certainly something we can make assemblages of these things that have auto-phoetic
aspects to them that will create structures that will, you know, crystalline solids will
form very interesting and beautiful structures.
This gets kind of into weird mathematical territories.
You start to think about pen rows and game of life stuff about the generativity of math
itself, like the hyper real numbers, things like that.
But without going down that rabbit hole, I would say that there seems to be a tendency in
the world that when there is excess energy, things will structure and pattern themselves.
And they will then actually furthermore try to create an environment that furthers their continued stability.
It's a concept of an externalized extended phenotype or niche construction. So
this is ultimately what leads to certain kinds of
amino acids forming certain kinds of structures and so on and so forth until you get the lad of life.
So what we experience as consciousness, no, I don't think cells are conscious of that
level.
But is there something beyond mere equilibrium state biology and chemistry and biochemistry
that drives what makes things work?
I think there is.
So Adrian Pajan has his Constructile law. There's other things you look at
when you look at the life sciences and you look at any kind of statistical physics and statistical
mechanics, when you look at things far out of equilibrium, when you have excess energy,
what happens then? Life doesn't just make a hotter soup. It starts making structure. There's
something there. The poetry of reaches for order
when there's an excess of energy
because you brought up Game of Life.
You did it, not me.
I love cellular tomatists.
So I have to sort of linger on that for a little bit.
So cellular tomat, I guess, or Game of life is a very simple example of reaching for
order when there's an excess of energy, or reaching for order and somehow creating complexity.
It's explosion of just turmoil, somehow trying to construct structures.
And so, doing creates very elaborate organism-looking type things. What intuition do you
draw from the simple little mechanism? Well, I like to turn that around its head and look at it as
what if every single one of the patterns created life or created, you know, not life, but created
interesting patterns. Because you know, some of them don't. And sometimes you make cool gliders.
And other times, you know, you start with certain things
and you make gliders and other things
that then construct like, you know, and gates and not gates,
right, and you build computers on them.
All of these rules that create these patterns that we can see,
those are just the patterns we can see.
What if our subjectivity is actually limiting our ability
to perceive the order and all of it?
You know, what are some of the things that we think are random?
We're actually not that random. We're simply not integrating at a final of level across a broad enough time horizon.
And this is again, where I said we go down the rabbit holes and the pen roast stuff or like wolf runs explorations on these things.
There is something deep and beautiful in the mathematics of all this. That is hopefully one day I'll have enough money to work and retire and just ponder those
questions.
But there's something there.
But you're saying there's a ceiling to when you have enough money and you retire and
you ponder it, there's a ceiling to how much you can truly ponder because there's cognitive
limitations in what you're able to perceive as a pattern.
Yeah.
So, and maybe mathematics extends your perception capabilities, but it's still finite.
It's just like, yeah, the mathematics we use is mathematics that can fit in our head.
Yeah.
You know, did God really create the integers or did God create all of it?
And we just happen at this point in time to be able to perceive integers.
Well, he just did the positive in it.
She actually, she, she, she, she, she, she, she, she, she,
she just created the natural numbers
and then we screwed all up to zero and then I guess, okay.
But we did, we created mathematical operations
so we can have iterated steps to approach bigger problems, right?
I mean, the entire point of the Arabic Neutral System
and it's a rubric
for mapping a certain set of operations, folding them into a simple little expression.
But that's just the operations that we can fit in our heads. There are many other operations
besides, right? The thing that worries me the most about aliens and humans is that their
aliens are all around us and we're too dumb. Yeah, see them.
Oh, certainly. Yeah. Or life, let's say just life. Life of all kinds of forms or organisms.
You know what? Just even the intelligence of organisms is imperceptible to us because we're too
dumb and self-centered. That word is... Well, we're looking for a particular kind of thing.
were two dumb and self-centered. Well, we're looking for a particular kind of thing.
When I was a Cornell, I had a lovely professor of Asian religions, Jamry Law.
She would tell this story about a musician, a western musician who went to Japan, and
he taught classical music and could play all sorts of instruments.
He went to Japan and he would ask people, he would basically be looking for things in the style of
Western, you know, a chromatic scale and these kinds of things. And then finding none of it, he would say,
well, there's really no music in Japan, but they're using a different scale. They're playing different kinds of instruments, right?
The same thing she was using as sort of a metaphor for religion as well. And in the West,
we center a lot of religion. Certainly the religions of Abraham, we center them around belief.
And in the East, it's more about practice, right?
Spirituality and practice rather than belief.
So anyway, the point is here, to your point, life, we, I think so many people are so fixated
on certain aspects of self-replication or, you know, homeostasis or whatever.
But if we kind of broaden and generalize this thing of things reaching for order,
under which conditions can they then create an environment that sustains that order,
that allows them, you know, the invention of death is an interesting thing.
There are some organisms on earth that are thousands of years old,
and it's not like they're incredibly complex, actually simpler than the cells that comprise us,
but they never die.
So at some point, death was invented, somewhere along the eukaryotic scale, I mean, even the
protists, right?
There's death.
And why is that?
Along with the sexual reproduction, right?
There is something about the renewal process, something about the ability to respond to
a changing environment where it just becomes, you know, just killing off the old generation and letting new generations
try seems to be the best way to fit into the niche.
You know, human historian seems to write about wheels and fires, the greatest inventions,
but it seems like death and sex are pretty good.
And they're kind of essential inventions at the very beginning.
At the very beginning.
Yeah. Well, we didn't invent them, right?
They.
Well, broad we, you didn't invent them.
I see us as one, you, particularly,
Homo sapien did not invent them,
but we together, it's a team project,
just like you're saying.
I think the greatest Homo sapien invention is collaboration.
So when you say collaboration,
Peter, where do ideas come from and how do they take hold in society? Is that the nature of collaboration? Is that the basic atom of
collaboration ideas? It's not ideas, but it's not only ideas. There's a book I just started
reading called Death from a Distance. Have you heard of this? No. It's a really fascinating thesis, which is that humans are the only conspecific, the only
species that can kill other members of the species from range. And maybe there's a few exceptions,
but if you look in the animal world, you see like pronghorn's butting heads, right? You see the alpha
lion and the beta lion, and they take each other down. Humans, we develop the ability to chuck
rocks at each other, and while at prey, but also at each other. And that means the beta lion and they take each other down. Humans, we develop the ability to chuck rocks at each other and while at prey, but also at each other.
And that means the beta male can chunk a rock at the alpha male and take them down.
And with their, and he can throw a lot of rocks actually, miss a bunch of times, which is hit once and be good.
So this ability to actually kill members of our own species from range without a threat of harm to ourselves,
create essentially mutually assured destruction where we had to evolve cooperation.
If we didn't, then if we just continue to try to do like I'm the biggest monkey in the
tribe and I'm going to, you know, own this tribe and you have to go, if we do it that way,
then those tribes basically failed.
And the tribes that persisted and that have now given rise
to the modern Homo sapiens are the ones
where respecting the fact that we can kill each other
from range without, like there's nasometric ability
to snipe the leader from range,
that meant that we sort of had to learn
how to cooperate with each other.
Right, come back here, don't throw that rock at me.
Let's talk our answers out.
So violence is also part of collaboration. The threat of violence, let's say. Well, the
recognition, I was maybe the better way to put it, is the recognition that we have more to
gain by working together than the prisoner's dilemma of both of us defecting.
So mutually sure, destruction in all his forms is part of this idea of collaboration.
Well, and Eric Weinstein talks about our nuclear piece, right?
I mean, it kind of sucks, so if thousands of warheads aimed at each other, we didn't
rush in in the US, but it's like, on the other hand, we only fought proxy wars.
We did not have another World War III of hundreds of millions of people dying to like
machine gunfire and giant guided missiles.
So the original nuclear weapon is a rock
that we learned how to throw essentially.
The original, yeah, well, the original scope of the world
for any human being was their little tribe.
I would say it still is for the most part.
Eric Weinstein speaks very highly of you,
which is very surprising to me at first
because I didn't know there's
this depth to you because I knew you as an amazing leader of engineers and engineer yourself
and so on.
So it's fascinating.
Maybe just as a comment, a side tangent that we can take, what's your nature of your
friendship with Airquindstein?
How did such two interesting paths cross? Is it
your origins and physics? Is it your interest in philosophy and the ideas of how the world works?
Yeah, that's right. What is it? It's actually, it's very random. It's Eric found me. He actually
found Travis and I. Travis, I'll have fun. Yeah, we were both working at a company called N Thought
back in the mid-2000s and we're doing a lot of consulting around scientific Python
And we'd made some some tools and Eric was trying to use some of these Python tools to visualize
They had a fiber bundle approach to modeling certain aspects of economics. He was doing this and that's how we kind of got in touch with us and so
This was in the early this was in the mid 2000s, 07 timeframe, 06, 07 timeframe.
Eric Weinstein trying to use Python to visualize five proposals.
To visualize five proposals.
Using some of the tools that we'd build in the open source.
That's somehow entertaining to me.
It's really funny.
It's really funny.
But then we've met with them a couple of times, a really interesting guy.
And then in the wake of the 0708 kind of financial collapse, he helped organize with Lee
Smolin, a symposium at the perimeter institute about, okay, well clearly, you know, big finance
can be trusted, governments in its pockets of regulatory capture, what the F do we do.
And all sorts of people, Nessim Talibib was there and Andy Lowe from MIT was there
and Bill Janeway, I mean, just a lot of top billing people were there. And he invited me
and Travis and another one of our co-workers, Robert Kern, who was anyone in the SiPi Numpi
Community knows Robert. Really great guy. So the three of us also got a mic to go to this thing.
And that's where I met Brett Weinstein for the first time as well Yeah, I knew him before he got all famous for unfortunate reasons, I guess, but
but but anyway, we
So we met then and kind of had a friendship
You know throughout since then you have a depth of thinking that kind of
Runs with Eric in terms of just thinking about the world deeply and thinking philosophically.
And then there's Eric's interest in programming.
I actually've never, you know, he'll bring up programming
to me quite a bit as a metaphor for stuff.
Right.
But I never kind of pushed the point of like,
what's the nature of your interest in programming?
I think he saw it probably as a tool.
Yeah, absolutely. The two visualized to explore mathematics and explore physics. And I was wondered
like, what's the depth of interest and also his vision for what programming would look like in the
future? Have you had interaction with him like discussion in the space of Python programming? Well, in the sense of sometimes he asked me, why is this stuff still so hard?
Yeah, you know, everybody's a critic, but actually, no, Eric, programming, you mean like,
yes, yes, well, not programming in general, but certain things in the Python ecosystem.
But he, but he actually, I think what I find in listening to some of his stuff is that he
does use programming metaphors a lot. He'll talk about APIs or object oriented and things like that.
So I think that's a useful set of frames for him to draw upon for discourse. I have a pair
programed with him in a very long time. You've previously... Well, I mean, I've tried to help put together some of the visualizations around these things, but it's been a very long time. You've previously, well, I mean, I've been looking to try to help
like put together some of the visualizations around these things, but it's been a very,
not really pair program, but like, you looked at his code, right? I mean, a legendary would be
is that like, uh, get repo with Peter Wang and Eric Weinstein. Well, honestly,
honestly, Robert Kern did all the heavy lifting. So I have to give credit, what credit to do.
Robert is, is the silent silent but incredibly deep quiet,
not silent, but quiet but incredibly deep individual
at the heart of a lot of those things
that Eric was trying to do.
But we did have, you know, in the,
as Travis and I were starting our company in 2012 timeframe,
we went to New York,
Eric was still in New York at the time.
He hadn't moved to, this is before he joined Tiel Capital.
We just had like a stake dinner somewhere, maybe it was Keynes, I don't know,
somewhere in New York. So it's me, Travis Eric, and then Wes McKinney, the creative pandas,
and then Wes's then business partner, Adam. The five is sat around having this just a hilarious
time, amazing dinner. I forget what all we talked about, but it was one of those conversations
which I wish as soon as COVID is over, maybe Eric and I can sit down.
Recreate.
So recreate in somewhere in LA or maybe he comes here because a lot of cool people are here in Austin, right?
Exactly.
Yeah, we're all here. He's from here.
Come here.
Yeah.
So he uses the metaphor source code sometimes to talk about physics.
We figure out our own source code.
So you with the physics background,
and somebody who's quite a bit of an expert in source code, do you think we'll ever figure out our own source code in the way that Eric means? Do you think we'll figure out the nature of it?
Well, I think we're constantly working on that problem. I mean, I think we'll make more and more
progress. For me, there's some things I don't really doubt too much. Like, I don't really doubt that one day we will create a synthetic,
maybe not, maybe not fully silicon, but a synthetic approach to cognition.
That rivals the biological 20 watt computers in our heads.
What's cognition here?
Cognition, which is perception, attention, memory, recall, asking better questions.
That for me is a measure of intelligence.
Doesn't room of vacuum cleaner already do that?
Or do you mean, oh, doesn't ask questions?
No, I mean, no, it's, it's, so I mean, I have a room, but it's, it's not even as smart
as my cat, right?
So.
Yeah, but it asks questions about what is this wall?
It now, new feature asks, is this poop or not, apparently?
Yes, a lot of our current cybernetics system,
it's a cybernetics system, it will go
and it will happily vacuum up some poop, right?
The older generations would.
The new one just released, not vacuum up the poop.
This is a commercial thing.
I wonder if it still gets stuck under my first run
of my stair.
In any case, these cybernetics systems we have,
they are designed to be sent off into
a relatively static environment.
And whatever dynamic things happen in the environment, they have a very limited capacity
to respond to.
A human baby, a human toddler of, you know, 18 months of age, has more capacity to manage
its own attention and its own capacity to make better sense of the world, than the most advanced robots today. So, again, my cat, I think, can do a better job of my two,
and they're both pretty clever. So, I do think, though, back to my kind of original point,
I think that it's not, for me, it's not a question at all, that we will be able to create synthetic
systems that are able to do this better than the human at an equal level or better than
the human mind. It's also for me not a question that we will be able to put them alongside humans
so that they capture the full broad spectrum of what we are seeing as well and also looking at
our responses, listening to our responses, even maybe measuring certain
vital signs about us. So in this kind of side-car mode, a greater intelligence could use us and
are whatever 80 years of life to train itself up. And there'd be a very good simulacrum of us moving
forward. So who is in the side-car in that picture of the future?
Exactly.
The baby version of our immortal selves.
Okay.
So once the baby grows up, is there any use for humans?
I think so.
I think that out of epistemic humility,
we need to keep humans around for a long time.
And I would hope that anyone making those systems
would believe that to be true. Out of epistemic humility. What's
the nature of the humility that that we don't know what we don't
know? So we don't. Right. So we don't know. I mean, first we
have to build systems that that help us do the things that we do
know about that can then probe the unknowns that we know about.
But the unknown unknowns we don't know we could all in the
nature is the one thing that is infinitely able to surprise us.
So we should keep biological humans around
for a very, very, very long time.
Even after our immortal selves have transcended
and have gone off to explore other worlds,
gone to go communicate with the life forms living
in the sun or whatever else.
So, you know, I think that's, for's, that's, for me, these are,
these seem like things that are going to happen. Like, I don't really question that, that they're
going to happen. Assuming we don't completely, you know, distort ourselves. Is it possible to create
an AI system that you fall in love with and it falls in love with you and you have a romantic
relationship with it or a deep friendship, let's say.
I would hope that that is the design criteria for any of these systems.
If we cannot have a meaningful relationship with it, then it's still just a chunk of silicon.
So then what is meaningful? Because back to sugar?
Well, sugar doesn't love you back, right?
So the computer has to love you back. And what does love mean?
Well, in this context for me, love, I'm going to take a page from Ellen DeBotone.
Love means that it wants to help us become the best version of ourselves.
Yes.
That's that's beautiful. I that's a beautiful definition of love. So what
what role does love play in the human condition at the individual level and at the
group level? Because you were kind of saying that humans, we should really consider humans both at the individual and the group
and the societal level, what's the role of love in this whole thing?
We talked about sex, we talked about death, thanks to the bacteria, they invented it,
at which point do we invent love, by the way?
I mean, is that also...
No, I think love is the start of it all, and the feelings of, and this gets,
this is sort of beyond just romantic, sensual,
whatever kind of things, but actually genuine love
is we have for another person.
Love is it would be used in a religious text, right?
I think that capacity to feel love more than consciousness
that is the universal thing.
Our feeling of love is actually a sense of
that generativity. When we can look at another person and see that they can be something more
than they are and more than just what we, you know, a pigeonhole we might stick them in.
We see, I mean, I think there's any religious text you'll find voiced some concept of this.
They should see the grace of God and the other person,
right?
They're made in the spirit of what, you know, the love that God feels for His creation
or her creation.
And so I think this thing is actually the root of it.
So I would say before, I don't think molecules of water feel conscious, this have consciousness,
but there is some proto-micro-quantum thing of love.
That's the generativity when there's more energy than what they need to maintain equilibrium.
And that when you sum it all up is something that leads to, I mean, I had my mind blown
one day as an undergrad at the physics computer lab I logged in.
And you know, when you log in a bash for a long time, there was a little fortune that would
come out and it said man was created by water to carry itself uphill
And I was logging in to work on some you know problem set and I logged in and I saw that and I just said
You know, I just I logged out and I went to the coffee shop and I got a coffee and I sat there on the quad and like you know
It's not wrong.
And yet WTF, right? So when you look at it that way, it's like, yeah, okay, non-equilibrium
physics is a thing. And so when we think about love and we think about these kinds of things,
I would say that in the modern day human condition, there's a lot of talk about freedom and individual liberty and rights and all these things.
But that's very hegellian, it love themselves first, to love each other, their responsibilities
to the previous generation, to the future generations.
Those are the kinds of things that should be our design criteria, right?
Those should be what we start with to then come up with the philosophies of self and
of rights and responsibilities. But that love being at the center of it, I think when we designed systems for cognition,
it should absolutely be built that way.
I think if we simply focus on efficiency and productivity, these kind of very industrial
era, you know, all the things that Marx had issues with, right?
Those, that's a way to go and really, I think,
go off the deep end in the wrong way.
So one of the interesting consequences
of thinking of life in this hierarchical way
of an individual human and then there's groups
and there's societies is, I believe that you believe
that corporations are people.
So this is a political, the dense idea and all those kinds of things.
If we just throw politics aside, if we throw all of that aside,
in which sense do you believe that corporations are people?
And how does love connect to that?
Right. So the belief is that groups of people have some kind of higher level, I would say,
mesoscopic clank to agency.
You know, so, so where do I, you know, let's, let's start with this.
Most people would say, okay, individuals have claims to agency and sovereignty.
Nations, we certainly act as if nations, sort of very large, large scale.
Nations have rights to sovereignty and agency.
Like everyone plays the game of modernity
as if that's true, right?
We believe France is a thing.
We believe the United States is a thing.
But to say that groups of people at a smaller level
than that, like a family unit is a thing.
Well, in our law, in our laws,
we actually do and code this concept.
I believe that in a relationship and a marriage,
one partner can sue for loss of consortium,
if someone breaks up the marriage or whatever.
So these are concepts that even in law,
we do respect that there is something about the union
and about the family.
So for me, I don't think it's so weird
to think that groups of people have a right to,
a claim to rights and sovereignty of some degree.
I mean, we look at our clubs with our churches.
These are, we talk about these collectives of people
as if they have a real agency to them.
And then they do.
But I think if we take that one step further,
they say, okay, they can accrue resources. Well, yes, check, you know, by law they do. But I think if we take that one step further, they say, OK, they can accrue resources.
Well, yes, check.
By law, they can.
They can own land.
They can engage in contracts.
They can do all these different kinds of things.
So we in legal terms support this idea
that groups of people have rights.
Where we go wrong on this stuff is
that the most popular version of this is the for-profit
absentee owner corporation that then is able to amass larger resources than anyone else
in the landscape, anything else, any other entity of equivalent size, and they're able to essentially
bully around individuals, whether it's laborers, whether it's people whose resources they want to
capture, they're also able to bully around our system's representation, which is still tied to individuals.
So I don't believe that's correct. I don't think it's good that they're people, but they're
assholes. I don't think that corporations as people act like assholes is a good thing. But the idea
that collectives and collections of people that we should treat them philosophically as having some agency, some agency and some mass at a mesoscopic level, I think that's
an important thing because one thing I do think we under appreciate sometimes is the fact that
relationships have relationships. So it's not just individuals having relationships with each other,
but if you have eight people seated around a table, right, each person has a relationship with each of the others, and that's obvious,
but then if it's four couples, each couple also has a relationship with each of the other couples,
right, the dyads do. And if it's couples, but one is the, you know, father, mother, older, and then, you and then one of their children and their spouse, that family unit
of four has a relationship with the other family unit of four. So the idea that relationships
have relationships is something that we intuitively know in navigating the social landscape,
but it's not something I hear expressed like that. It's certainly not something that is,
I think, taken into account very well when we design these kinds of things.
So I think the reason why I care a lot about this is because I think the future of humanity requires us to form better sense-make collective sense-making units at something around Dumbar number, you know, half to 5X dumbbell. And that's very different than right now where we
defer since making two massive aging zombie institutions. Or we just do it ourselves,
we go to loan, go to the dark force of the internet, ourselves. So that's really interesting.
So you've talked about agency, I think maybe calling it a convenient fiction at all these different
levels. So even at the human individual level, it's kind of a convenient fiction at all these different levels.
So even at the human individual level, it's kind of a fiction.
We all believe because we are like you said, made of cells and cells and made of atoms.
So that's a useful fiction.
And then there's nations that seems to be a useful fiction.
But it seems like some fictions are better than others.
There's a lot of people that argue the fiction of nation
is a bad idea.
One of them lives two doors down from me.
Michael Malis, he's an anarchist.
I'm sure there's a lot of people who are into meditation
that believe the idea, this useful fiction of agency
of an individual is troublesome as well.
We need to let go of that in order to truly,
to transcend, I don't know,
I don't know what words you want to use but suffering or to elevate the experience of life. So
you're kind of arguing that, okay, so we have some of these useful fictions of agency. We should add
a stronger fiction that we tell ourselves about the agency of groups in the hundreds of
Half a dumbbells number or five X dumbbells number. Yeah, something on that order
And we called them fictions, but really they're rules of the game right rules that we we we feel are fair or rules that we consent to
Yeah, I always question the rules when I lose like a monopoly
That's one easy question when I'm waiting. I I always question the rules when I lose. I kept my monopoly. That's one of the major questions.
When I'm winning, I don't question the rules.
We should play a game monopoly someday.
There's a trippy version of it that we could do.
What kind of way?
Contract monopoly is introduced by a friend of mine,
to me, where you can write contracts
on future earnings or landing on various things.
And you can hand out, like, you know,
you can land first three times,
you land a park place as free or whatever. Just, and then you can start trading those contracts for money.
And then you create a human civilization.
And somehow Bitcoin comes into it.
Okay.
But some of these...
Actually, I bet if me and you and Eric sat down to play a game of anopoly and we were
to make NFTs out of the contracts we wrote, we could make a lot of money.
Now, it's a terrible idea.
Yeah. I would never do it, but I bet we could actually sell the NFTs out of the contracts we wrote, we could make a lot of money. Now it's a terrible idea. I would never do it,
but I bet we could actually sell the NFTs around.
I have other ideas to make money
that I could tell you and they're all terrible ideas,
including cat videos on the internet.
Okay, but some of these rules of the game,
some of these fictions are,
it seems like they're better than others.
They have worked this far to cohere human, to organize human collective action.
But you're saying something about, especially this technological age,
requires modified fictions, stories of agency. Why the Dumbar number? And also,
you know, how do you select the group of people? You know, Dumbar numbers, I think I have the sense that it's overused as a kind of law
that somehow we can have deep human connection at this scale.
Like some of it feels like an interface problem too.
It feels like if I have the right tools, I can deeply connect with a large number,
larger number of people. It just feels like there's a huge value to interacting just in person,
getting to share traumatic experiences together, beautiful experiences together. There's other
experiences like that in the digital space that you can share. It just feels like thumb bars, number kidding, expended significantly,
perhaps not to the level of millions and billions,
but it feels like it could be expended.
So how do we find the right interface, you think,
for having a little bit of a collective here
that has agency?
You're right, that there's many different ways
that we can build trust with each other.
I have Renjo Adelman talks about a few different ways that mutual appreciation, trustful conflict,
just experiencing something like, there's a variety of different things that we can do.
But all those things take time.
And you have to be present.
The less present you are, I mean, there's just again, a no free lunch principle present. The less present you are, I mean,
there's just again, a no free lunch principle here.
The less present you are, the more of them you can do,
but then the less connection you built.
So I think there is sort of a human capacity issue
around some of these things.
Now that being said, if we can use certain technologies.
So for instance, if I write a little monograph
on my view of the world,
you read it asynchronously
at some point.
And you're like, wow, Peter, this is great.
Here's mine.
I read it.
I'm like, wow, Lex, this is awesome.
We can be friends without having to spend 10 years, you know, thinking all this stuff
out together.
We just read each other's thing and be like, oh, yeah, this guy's exactly in my wheelhouse
and vice versa.
And we can then, you know, connect just a few times a year and maintain a high trust relationship.
It can be expanded a little bit, but it also requires, these things are not all technological nature.
It requires the individual themselves to have a certain level of capacity, to have a certain lack of neuroticism.
If you want to use the ocean, big five sort of model, people have a pretty centered, the
less centered you are, the fewer authentic connections you can really build for a particular
unit of time.
It just takes more time.
Other people have to put up with your crap.
There's just a lot of the stuff that you have to deal with if you are not so well balanced.
So yes, we can help people get better to where they can develop more relationships faster,
and then you can maybe expand Dumbar number by quite a bit. But you're not going to do it. I think it's hard to get it
beyond 10x, kind of the rough swag of what it is, you know.
Well, don't you think that AI systems could be on addition to the Dumbar's number?
So, like, why? You count as one system or multiple AI systems.
Multiple AI systems. So, I do believe that AI systems, for them, to integrate into human society as it is now
have to have a sense of agency.
So there has to be an individual.
Because otherwise, we wouldn't relate to them.
We could engage certain kinds of individuals
to make sense of them for us and be almost like,
did you watch Star Trek?
Like, Voyager, like, there's the Volta
who were like the interfaces, the ambassadors,
for the Dominion.
We may have ambassadors that speak on behalf of these systems.
They're like the mentats of Dune maybe,
or something like this.
I mean, we already have this to some extent.
If you look at the biggest sort of,
I wouldn't say AI system,
but the biggest cybernetics system in the world
is the financial markets.
It runs outside of any individuals control.
And you have an entire stack of people on Wall Street, Wall Street analysts, to CNBC, reporters, whatever, they're all helping to communicate
what does this mean? You know, like a Jim Kramer, like, Murrown, and yelling stuff, like all of these
people are part of that lowering of the complexity there to meet, you know, to help do sense making
for people at whatever capacity they're at.
And I don't see this changing with AI systems.
I think you would have ringside commentators talking about all the stuff
that this AI system is trying to do over here over here.
Because it's actually a superintelligence.
So if you're going to talk about humans interfacing making first contact with superintelligence,
we are ready there.
We do it pretty poorly.
And if you look at the gradient of power and money,
what happens is people closest to it will absolutely exploit their distance for
Personal financial gain. So we should look at that and be like, oh, well, that's probably what the future will look like as well
But but nonetheless, I mean, we're already doing this kind of thing so in the future we can have AI systems
But you're still going to have to trust people to bridge the sense making gap to them
See, I don't I just feel like there could be, like, millions of AI systems that have
agencies.
You have, when you say one super intelligence, super intelligence in that context means it's
able to solve particular problems extremely well.
But there's some aspect of human-like intelligence that's necessary
to be integrated into human society.
So not financial markets, not sort of weather prediction systems or, I don't know, logistics
optimization.
I'm more referring to things that you interact with on the intellectual level.
And that, I think, requires, there has to be a backstory. There has to be a personality.
I believe it has to fear its own mortality in a genuine way. Like there has to be
all many of the elements that we humans experience that are fundamental to the human condition.
Because otherwise we would not have a deep connection with it.
But I don't think having a deep connection with it is necessarily going to stop us from building a thing that has quite an alien intelligence aspect. So another now the other kind of alien intelligence on this planet is octopuses or octopuses or octopuses or whatever you want to call them.
Octopi. in octopus. In octopus. In octopus. In octopus. You know, it really acts as a collective intelligence of eight intelligent arms, right?
Its arms have a tremendous amount of neural density to them.
And I see, if we can build, let's go with what you're saying.
If we build a singular intelligence that interfaces with humans that has a sense of agencies
so we can run the cybernetic loop
and develop its own theory of mind as well as its a theory of action. All these I agree with you
that that's the necessary components to build a real intelligence. There's gotta be something at
stake, it's gotta make a decision, it's gotta then run the Udalupe. Okay, so we build one of those.
Well, if we can build one of those, we can probably build five million of them. So we'll build five
million of them and if their cognitive systems are already digitized and already kind of
There, we stick it in ten on each of them, bring it all back to a hive mind that maybe doesn't make all the individual decisions for them, but treats each one as almost like a neural
Neuronal input of a much higher bandwidth and fidelity going back to a central system that is then able to perceive
much broader Dynamics that we can't see.
In the same way that it fades to Ray Radar, right?
You think about how a phased to Ray Radar works.
It's just sensitivity, it's just radars,
and then it's hypersensitivity and really great timing
between all of them.
And with a flat array, it's as good as a curved radar dish, right?
So with these things, it's a phased to Ray
of cybernetics systems that'll give the centralized intelligence much, much better, much higher fidelity, understanding of what's
actually happening in the environment. But the more power, the more understanding the central
super intelligence has, the dumber, the individual, like, fingers of this intelligence are, I think,
I think it's not necessarily. I might say, I I don't see what has to be this argument there has to be
the experience of the individual agent has to have the full richness of the
human like experience you have to be able to be driving the car in the rain
listening to Bruce Springsteen and all of a sudden break out in tears because
remembering some remembering something that
happened to you in high school.
We can implant those memories if that's really needed.
But no, no, no, no.
But the central agency, like I guess I'm saying, for in my view, for intelligence to be
born, you have to have a decentralization.
Like, each one has to struggle and reach.
So each one in excess of energy has to reach for order,
as opposed to a central place doing so. Have you ever read like some sci-fi where there's like
hive mines? Like the Werner Vinge I think has one of these and then some of the stuff from
yes, on the Commonwealth saga. The idea that you're an individual but you're connected with like
a few other individuals telepathically as well and together you form a swarm. So if you are,
I ask you, what do you think is the experience of if you are like, well, a
board, right? If you are one, if you're part of this hive mind outside of all the
aesthetics, forget the aesthetics. Internally, what is your experience like?
Because I have a theory as to what that looks like.
The one question I have for you about that experience is how much is there feeling of freedom,
of free will.
Because I obviously, as a human, very imbiased, but also somebody who values freedom and
biased, it feels like the experience of freedom is essential for trying stuff out
to being creative and doing something truly novel, which is at the core of.
Yeah, well, I don't think you have to lose any freedom when you're in that mode.
Because I think what happens is we think, we still think, I mean, you're still thinking
about this in a sense of a top-down, command and control hierarchy, which is not what it has to be at all.
I think the experience, so I'll just show my cards here, I think the experience of being a robot
in that robot's swarm, a robot who has agency over their own local environment that's doing
sense-making and reporting it back to the hive mind. I think that robot's experience would be
back to the hive mind. I think that robot's experience would be one when the hive mind is working well,
it would be an experience of like talking to God, right, that you essentially are reporting to
you're sort of saying, here's what I see. I think this is what's going to happen over here. I'm going to go do this thing because I think if I'm going to do this, this will make this change happen
in the environment. And then and God, she may may tell you that's great. And in fact,
your your brothers and sisters will join you to help make this go better, right? And then she can
let your brothers and sisters know, hey, you know, Peter is going to go do this thing. Would you
like to help him? Because we think that this will make this thing go better. And they'll say, yes,
we'll help him. So the whole thing could be actually very emergent. That the sense of, you know,
what does it feel like to be a cell
in a network that is alive, that is generative? And I think actually the feeling is serendipity
that there's random order, not random disorder or chaos, but random order, just when you need it
to hear Bruce Springsteen, you turn on the radio and bam, it's Bruce brinstinct, right? That feeling of serendipity, I feel like this is a bit of a
flight of fancy, but every cell in your body must have, like,
what does it feel like to be a cell in your body?
When it needs sugar, there's sugar.
When he's oxygen, there's just oxygen.
Now, when it needs to go and do its work and pull, like as
as a more of your muscle fibers, right?
It does its work.
And it's great.
It contributes to the cause, right? So this is all, again, a flight of your muscle fibers, right? It does its work, and it's great. It contributes to the cause, right?
So this is all, again, a fight of fancy,
but I think as we extrapolate up,
what does it feel like to be an independent individual
with some bounded sense of freedom?
All sense of freedom is actually bounded,
but it was a bounded sense of freedom
that still lives within a network that has ordered to it.
And I feel like it has to be a feeling of serendipity.
So the cell, there's a feeling of serendipity, even though... It has no way of explaining why it's getting oxygen and sugar when it gets it. And I feel like it has to be a feeling of serendipity. So the cell, there's a feeling of serendipity, even though it has no way of explaining why
it's getting oxygen and sugar when it gets it.
So you have to each individual component has to be too dumb to understand the big picture.
No, the big picture is bigger than what it can understand.
But isn't that an essential characteristic of the individual? It's to be too dumb to
understand the bigger picture.
Like, not dumbness, but limited in its capacity to understand.
Because the moment you understand, I feel like that leads to, if you tell me now that there
are some bigger intelligence controlling everything I do, intelligence broadly defined, meaning
like, even the Sam Harris
thing, there's no free will. If I'm smart enough to truly understand that that's the case.
That's kind of, I don't know if I, well, yeah, philosophical breakdown. Yeah. Right? Because
we're in the West and we're pumped full of this stuff of like you are a golden fully free
individual with all your freedoms and all your liberties and go, grab a gun and shoot whatever you want to.
No, it's actually, you don't actually have a lot of these, you're not unconstrained, but
the areas where you can manifest agency, you're free to do those things.
You can say whatever you want on this podcast, you can create a podcast, right?
You're not, I mean, you have a lot of this kind of freedom, but even as you're doing this, you are actually,
I guess, with the denouement of all of this,
is that we are already intelligent agents
in such a system, right?
In that one of these robots of one of five million
little swarm robots are one of the Borg,
they're just posting an internal bulletin board.
I mean, maybe the Borg cube is just a giant Facebook machine
floating in space, and everyone's just posting on there. They're just posting really fast. And like,
oh, yeah, it's called the metaverse. The Ness called the metaverse. That's right. Here's the
enterprise. Maybe we shall go shoot it. Yeah, everyone upvotes. And they're going to go shoot it.
Right. But we already are part of a human online collaborative environment and collaborative
sense-making system. It's not very good yet. It's got the overhangs of zombie since making institutions all over it.
But as that washes away, and as we get better at this,
we are going to see humanity improving at speeds
that are unthinkable in the past.
And it's not because anyone's freedoms were limited.
In fact, the open store, even we started
this with the open store software, right?
The collaboration, what the internet surfaced was the ability for people all over the
world to collaborate and produce some of the most foundational software that's in use
today, right?
That entire ecosystem is created by collaborators all over the place.
So these online kind of swarm kind of things are not novel.
It's just I'm just suggesting that future AI systems, if you can build one smart system, you have no reason not to build multiple.
If you build multiple, there's no reason not to integrate them all into a collective sense making
substrate. And that thing will certainly have immersion intelligence that none of the individuals and probably not any of the human designers will be able to really, you know, put a bow around and explain. But in some sense, with that AI system still be able to go like rural Texas by a ranch,
go off the grid, go full survivalist.
Like, can you disconnect from the hive mind?
You may not want to.
So to be an effective, to be intelligent, you have access to way more intelligence capability
if you're plugged into 5 million other really, really smart cyborgs.
Why would you leave?
So like there's a word control that comes to mind.
So it doesn't, it doesn't feel like control like over over barring control.
It's, it's just, I think systems knowledge.
Well, this is to your point.
I mean, look at, look at how much much how uncomfortable you are with this concept, right?
I think systems that feel like overbearing control will not evolutionarily went out.
I think systems that give their individual elements the feeling of serendipity and the
feeling of agency that that will those systems will win.
But that's not to say that there will not be emergent higher level order on top of
it. And that's the thing. That's the philosophical say that there will not be emergent higher level order on top of it.
And that's the thing, that's the philosophical breakdown that we are staring right at, which is in the Western mind, I think there's a very sharp delineation between explicit control.
Cartesian, like, what is the vector, where is the position, where is it going? It's completely
deterministic. And kind of this idea that things
emerge, everything we see is the emergent patterns of other things. And there is agency when
there's extra energy. So you have spoken about a kind of meaning crisis that we're going through.
through. But it feels like since we invented sex and death, we broadly speaking. We've been searching for a kind of meaning. So it feels like human civilization has been going
through a meaning crisis of different flavors throughout its history. Why is how is this
particular meaning crisis different? Or is it really a crisis and it wasn't previously?
What's your sense?
A lot of human history, there wasn't so much a meaning crisis.
There was just a like food and not getting eaten
by bearous crisis, right?
Once you get to a point where you can make food,
there was the like, not getting killed
by other humans crisis.
So sitting around wondering what is all about
is actually a relatively recent luxury.
And to some extent, the meaning crisis coming out of that
is precisely because, well, not precisely
because I believe that meaning is the consequence of
when we make consequential decisions.
It's tied to agency, right?
When we make consequential decisions,
that generates meaning. So if we make a lot
of decisions, but we don't see the consequence of them, then it feels like what was the point?
Right? But if there's all these big things happening, but we're just along for the right,
then it also does not feel very meaningful. Meaning, as far as I can tell, this is my
working definition of circa 2021 is generally the result of a person making a consequential decision,
acting on it, and then seeing the consequences of it.
So, historically, just when humans are in survival mode,
you're making consequential decisions all the time.
So, there's not a lack of meaning because like you either got eaten or you didn't.
You got some food, and that's great, you feel good.
Like, these are all consequential decisions,
only in the post-phospho-fuel
and industrial revolution, could we create a massive leisure class, like a sit-around not being
threatened by bears, not starving to death, making decisions somewhat, but a lot of times not making
not single consequences of any decisions they make. The general sort of sense of anomy, I think there's the French term for it, in the wake of the consumer
society, in the wake of mass media, telling everyone, hey, you know, choosing between Hermes and
Chanel is a meaningful decision. No, it's not. I don't know what either of those means.
Oh, there's a high end luxury,
purses and crap like that. But the point is that we give people the idea
that consumption is meaning,
that making a choice of this team versus that team,
spectating has meaning.
So we produce all of these different things
that are as if meaning, right?
But really making a decision
there has no consequences for us.
And so that creates the meaning crisis.
Well, you're saying choosing between Chanel
and the other one has no consequence.
I mean, why is one more meaning
for the other?
It's not that it's more meaningful than the other.
It's that you make a decision
between these two brands and you're told,
this brand will make me look better
in front of other people.
If I buy this brand of car,
if I wear that brand of a peril,
right, the idea that that brand of apparel,
the idea, like a lot of decisions we make
are around consumption.
But consumption by itself doesn't actually yield meaning.
Gaining social status does provide meaning.
So that's why in this era of abundant production,
we, so many things turn into status games.
The NFT kind of explosion is this similar kind of thing.
Everywhere there are status games,
because we just have so much excess production.
But aren't those status games a source of meaning?
Like, why do the games we play have to be grounded
in physical reality like they are
when you're trying to run away from lions?
Why can't we, in this virtuality world,
on social media, why can't we play the games
on social media, even the dark ones?
Right, we can.
And you're saying that's creating some meaning crisis.
Well, there's a meaning crisis
in that there's two aspects of it.
Number one, playing those kinds of status games
oftentimes requires destroying the planet
because it ties to
consumption, consuming the latest and greatest version of a thing, buying the latest limited edition
sneaker and throwing out all the old ones, maybe keeps in the old ones, but the amount of sneakers
we have to cut up and destroy every year to create artificial scarcity for the next generation,
right? This is kind of stuff that's not great, it's not great at all.
So, Conspicuous Consumption,
fueling status games is really bad for the planet,
not sustainable.
The second thing is, you can play these kinds of status games,
but then what it does is it renders you captured
to the virtual environment.
The status games of the really wealthy people are playing
are all around the hard resources
Where they're gonna build the factories they'd have the fuel in the rare earths to make the next generation of robots They're then going to one game so one circles around you and your your children
So that's another reason not to play those virtual status games. So you're saying
Ultimately the the the big picture game is one if by people who have access or control over actual hard resources.
So you can't, you don't see a society where most of the games are played in the virtual
space.
They'll be captured in the physical space.
It's all builds.
It's just like the stack of human being, right?
If you only play the game at the cultural and then intellectual level, then the people,
the hard resources and access to layer zero physical are going to own you.
But isn't money not connected to,
or less and less connected to hard resources
and money still seems to work?
It's a virtual technology.
There's different kinds of money.
Part of the reason that some of the stuff
is able to go a little unhinged
is because of the big solverties
where one spends money and uses money
and plays money games and inflates money,
their ability to adjudicate the physical resources
and hard resources on land and things like that,
those have not been challenged in a very long time.
So, we went off the gold standard.
Most money is not connected to physical resources.
It's an idea.
And that idea is very close to connected to status.
So, why is it...
But it's also tied to, like, it's actually tied to law.
It is tied to some physical hard things, right?
You have to pay your taxes.
Yes.
So, it's always, at the end, to be connected to the the block chain of physical
reality. So in the case of law and taxes, it's connected to government and government is
what violence is the I'm playing.
They will not be violence.
Devils advocates here.
And popping one devil off the stack at a time isn't ultimately, of course,
it'll be connected to physical reality, but just because people control the physical reality,
it doesn't mean the status. The broad James and theory could make more money than the owners of
the teams in theory. And to me, that's a virtual idea. So somebody else constructed a game,
and now you're playing in the space of virtual, in the virtual space of the game. So it just feels like there could be games where
status, we build realities that give us meaning in the virtual space. I can imagine such
things being possible. Oh, yeah. Okay. So I see what you're saying there. With the idea
there, I mean, we'll take the LeBron James side and put in like some YouTube influencer.
Yes, sure. Right. So the YouTube influencer, it is status games, but at a certain level, it precipitates into real dollars.
And into like, oh, you look at Mr. Beast, right? He's like sending off half a million dollars worth of fireworks or something, right?
Not a YouTube video. And also like saving, you know, like saving trees and so on.
Sure, right.
Trying to plant a million trees with Mark Rober or whatever it was.
Yeah, like it's not that those kinds of games
can't lead to real consequences.
It's that for the vast majority of people
in consumer culture, they are encented by the,
I would say most of them thinking about middle class consumers.
They're encented by advertisements. they're sented by their memetic environment to treat the purchasing of certain things,
the need to buy the latest model, whatever, the need to appear, however, the need to pursue status games as a driver of meaning.
And my point would be that it's a very hollow driver of meaning.
And that is what creates a meaning crisis because at the end of the day, it's like eating a lot of empty calories, right?
Yeah. Tasted good going down, a lot of sugar, but man, it did not, it was not enough protein
to help build your muscles. And you kind of feel that in your gut. And I think that's, I
mean, to all the stuff aside and setting aside our discussion on currency, which I hope
we get back to, that get back to. That's what I mean about the meaning crisis, part of it being created by the fact that we don't,
we're not encouraged to have more and more direct relationships.
We're actually alienated from relating to,
even our family members sometimes, right?
We're encouraged to relate to brands.
We're encouraged to relate to these kinds of things
that then tell us
to do things that are really of low consequence. And that's where the meaning crisis comes.
So the role of technology in this, so there's somebody you mentioned, we Jacques, Elio,
his view of technology, he warns about the towering piles of technique, which I guess
is a broad idea of technology.
Yes.
So I think, correct me if I'm wrong, for him, technology is bad, moving away from human
nature and it's ultimately destructive.
My question broadly speaking, this meaning crisis, can technology, what are the pros and
cons of technology, can it be a good?
Yeah, I think it can be.
I certainly draw on some of the little ideas
and I think some of them are pretty good.
But the way he defines technique is,
well, also, Samandhan as well.
I mean, he speaks to the general mentality of efficiency,
homogenized processes, homogenized production,
homogenized labor to produce homogenized artifacts
that then are not actually,
they don't sit well in the environment. produced homogenized artifacts that then are not actually,
they don't sit well in the environment. So it's essentially, you can think of it as the antonym
of craft, whereas a craftsman will come to a problem,
maybe a piece of wood and they can do a chair,
it may be a site to build a house or build a stable
or build whatever, and they will consider how to bring various things in to build something
well contextualized. That's in, uh, in right relationship with that environment.
But the way we have driven technology, or the last hundred and 150 years is not
that at all. It is, how can we, how can we make sure the input materials
are homogenized, cut to the same size, diluted and doped
exactly the right alloy concentrations.
How do we create machines that then consume exactly
the right amount of energy to be able to run at this high speed
to stamp out the same parts, which then go out the door.
Everyone gets the same tickle me Elmo,
and the reason why everyone wants it
is because we have broadcasts that tells everyone
this is the cool thing.
So we homogenized demand, right?
And we're like, bogeylord and other critiques of modernity coming from that direction,
you know, the situation list as well.
It's that their point is that at this point in time, consumption is the thing that drives
a lot of the economic stuff, not the need, but the need to consume and build status games
on top. So we have homogenized, when we discovered, but the need to consume and build status games on top.
So we have homogenized, when we discovered,
I think this is really like Bernays and stuff, right?
In the early 20th century, we discovered we can create,
we can create demand, we can create desire
in a way that was not possible before
because of broadcast media.
And one not only do we create desire,
we don't create desire for each person to
connect to some bespoke thing to build a relationship with their neighbor or their spouse.
We are telling them you need to consume this brand. You need to drive this vehicle. You
gotta listen to this music. Have you heard this? Have you seen this movie, right? So creating
homogenized demand makes it really cheap to create homogenized product. And now you have
economics of scale. So we make the same tickle me Elmo,
give it to all the kids, and all the kids are like,
hey, I gotta tickle me Elmo, right?
So this is ultimately where this ties in
then to run away hyper capitalism is that we then,
capitalism is always looking for growth.
It's always looking for growth,
and growth only happens to the margins.
So you have to squeeze more and more demand out.
You got to make it cheaper and cheaper to make the same thing, but tell everyone they're
still getting meaning from it.
You're still like, this is still your tickle me Elmo, right?
And we see little bits of this dripping, critiques of this dripping in popular culture.
You see it sometimes.
It's when Buzz Lightyear walks into the thing.
He's like, oh my God, at the toy store, I'm just a toy.
There's millions of others, hundreds of other Buzz Lightyear, just like me, right?
That is, I think, a fun Pixar critique on this homogenization dynamic.
I agree with you.
I'm most of the things you're saying, so I'm playing devil's advocate here.
But this homogenized machine of capitalism is also the thing that is able to fund if
channeled correctly innovation, invention, development of totally new things that, and the
best possible world create, all kinds of new experiences that can enrich lives, the quality
of lives for all kinds of people.
So isn't this the machine that actually enables the experiences
and more and more experiences that would then give meaning?
It has done that to some extent.
I mean, it's not all good or bad in my perspective.
You know, we can always look backwards and offer a critique
of the path we've taken to get to this point in time.
But that's a different, that's somewhat different in informs the discussion,
but it's somewhat different than the question of where do we go in the future, right?
Is this still the same rocket we need to ride to get to the next point? Well,
even get us to the next point. Well, how does this so you're predicting the future? How does it go wrong in your view?
Well, how does this so you're predicting the future? How does it go wrong in your view?
We have the mechanisms.
We have now explored enough technologies to where we can actually, I think, sustainably
produce what most people in the world need to live.
We have also created the infrastructures to allow continued research and development of additional
science and medicine and various other kinds of things. The organizing principles that we used to
govern all these things today have been, a lot of them have been just inherited from, honestly,
medieval times. Some of them have refactored a little bit in the industrial
era, but a lot of these modes of organizing people are deeply problematic. Furthermore, they're
rooted in, I think, a very industrial mode perspective on human labor. This is one of those things
I'm going to go back to
the open source thing. There was a point in time when, well, let me ask you this, if you
look at the core SciPy sort of collection of libraries, that's SciPy NumPy, Maps.lib,
right? There's ipython notebook, let's throw pandas in there, scikit-learn, a few of these
things. How much value do you think economic value would you say they drive in the world today?
That's one of the fascinating things about talking to you in Travis.
It's a measure.
It's like at least a billion dollars a day maybe.
A billion dollars, sure.
I mean, it's like, it's similar question of like how much value does Wikipedia create?
Right. It's like, all of it. I don't know.
Well, I mean, if you look at our systems, when you do a Google search, right?
Now, some of that stuff runs through TensorFlow, but when you look at, you know, Siri, when you do
credit card transaction fraud, like just everything, right? Every intelligentsia is the under
the sun. They're using some aspect of these kinds of tools. So I would say that these create
billions of dollars of value.
Are you mean like direct use of tools that leverage the system?
Yeah, yeah, even that's billions a day.
Yeah, right? Easily. I think like the things they could not do if they didn't have these
tools, right?
Yes.
So that's billions of dollars a day. Great. I think that's about right. Now, if we take
how many people did take to make that? Right.
And there was a point in time, not anymore,
but there was a point in time when they could fit in a van.
I could have fit them in my Mercedes printer.
Right.
And so if you look at that, like, holy crap,
literally a van of maybe a dozen people
could create value to the tune of billions of dollars a day.
Well, listen to you draw from that.
Well, here's the thing, what can we do to do more of that?
Like that's open source.
The way I've talked about this in other environments
is when we use generative participatory crowdsourced
approaches, we unlock human potential at a level
that is better than what capitalism can do.
I would challenge anyone to go and try to hire the right 12 people in the world
to build that entire stack the way those 12 people did that.
They would be very, very hard to press to do that. If a hedge fund could just hire a dozen people
and create something that is worth billions of dollars a day,
every single one of them would be racing to do it, right? But finding the right people, fostering the right collaborations, getting it adopted by
the right other people to then refine it, that is a thing that was organic in nature.
That took crowdsourcing.
That took a lot of the open source ethos and it took the right kinds of people, right?
Now, those people who started that said, I need to have a part of a multi-billion dollar a day sort of enterprise. They're like, I'm doing this cool
thing to solve my problem for my friends. Right? So the point of telling the story is to say that
our way of thinking about value, our way of thinking about allocation of resources, our ways of
thinking about property rights and all these kinds of things, they come from finite game, scarcity mentality,
medieval institutions. As we are now entering, to some extent, we are sort of in a post-scarcity era,
although some people are hoarding a whole lot of stuff. We are at a point where, if not now soon,
we'll be in a post-scarcity era. The question of how we allocate resources has to be revisited
at a fundamental level, Because the kind of software
of these people built, the modalities that those human ecologies that built the software,
it treats software's unproperty, actually sharing creates value, restricting and forking reduces
value. So that's different than any other physical resource that we've ever dealt with. It's
different than how most corporations treat software IP, right?
So if treating software in this way,
created this much value so efficiently, so cheaply,
because feeding a dozen people for 10 years is really cheap, right?
That's the reason I care about this right now,
is because looking forward when we can't automate a lot of labor,
where we can, in fact, labor, where we can in fact,
the programming for your robot in your part, neck of the woods, in your part of the Amazon,
to build something sustainable for you and your tribe to deliver the right medicines, to
take care of the kids, that's just software.
That's just code.
That could be totally open-sourced, right?
So we can actually get to a mode where all of this additional generative things that humans
are doing, they don't have to be wrapped up in a container and then we charge for all
the exponential dynamics out of it.
That's what Facebook did.
That's what modern social media did, right?
Because the old internet was connecting people just fine.
Facebook came along and said, well, anyone can post a picture, anyone can post some text.
And we're going to amplify the crap out of it to everyone else.
And it exploded this generative network of human interaction.
And then I said, how do I make money off that?
Oh, yeah, I'm going to be a gatekeeper on everybody's attention.
And that's how many make money.
So how do we create more than one van?
How do we have millions of vans full of people that create NumPy, SciPy, that
create Python. So, you know, the story of those people is often they have some kind of job
outside of this. This is what they're doing for fun. Don't you need to have a job? Don't
you have to be connected plugged in to the capitalist system? Isn't that what like isn't this consumerism, the engine that results in the individuals
that kind of take a break from it every once in a while to create something magical, like
at the edges is the end of the time.
Right. The question of surplus, right, this is the question. Like if everyone were to
go and run their own farm, no one would have time to go and write NumPy SciPy, right?
Maybe, but that's that's that's what I'm talking about when I say we're
maybe at a post-scarcity point for a lot of people.
The question that we're never encouraged to ask
in a Super Bowl ad is how much do you need?
How much is enough?
Do you need to have a new car every two years,
every five?
If you have a reliable car, can you drive one for 10 years?
That all right?
I had a car for 10 years, it was fine.
Your iPhone, did you have to upgrade every two years?
I mean, you're using the same app you did four years ago.
Right?
This should be a super bowl ad.
This should be a super bowl ad.
That's great.
Maybe somebody...
Maybe one of our listeners will fund something like this.
No, but just actually bringing it back to actually the question of what do you need,
how do we create the infrastructure for collectives
of people to live on the basis of providing,
what we need, meeting people's needs
with a little bit of access to handle emergencies
and things like that, pulling our resources together
to handle the really, really big emergencies,
somebody with a really
rare-care form of cancer or some massive fire sweeps through, you know, have the village or whatever.
But can we actually unscale things and solve for people's needs and then give them the capacity
to explore how to be the best versions themselves? And for Travis, that was throwing away his shot at tenure
in order to write NumPy.
For others, there is a saying in the SciPy community
that SciPy advance is one failed postdoc at a time.
And that's, we can do these things.
We can actually do this kind of collaboration
because code software information organization, that's cheap.
That those bits are very cheap to fling across the oceans.
So you mentioned Travis. We've been talking and we'll continue to talk about open source.
Maybe you can comment, how did you meet Travis? Who is Travis Alfaat?
What's your relationship been like through the years?
Where did you work together? How did you meet?
What's the present and the future look like?
Yeah, so the first time I met Travis
was at a sci-fi conference in Pasadena.
Do you remember the year?
2005.
I was working at, again, at NThought,
working on scientific computing, consulting.
And a couple of years later, he joined us at
End Thought, I think 2007, and he came in as the president, one of the founders of End Thought
was the CEO, Eric Jones. And we were all very excited that Travis was joining us, and that was,
you know, great fun. And so I worked with Travis on a number of consulting projects and we worked on
some open source stuff. I mean it was just a really good time there. And then-
Just primarily Python related- Oh yeah, it was all Python, so I'm
by consulting kind of stuff. Towards the end of that time, we started getting called into more
and more finance shops. They were adopting Python pretty heavily. I did some
work on like a high frequency trading shop, working on some stuff, and then we worked
together on some, a couple of investment banks in Manhattan. And so we started seeing that
there was a potential to take Python in the direction of business computing. More than
just being this niche like MATLAB replacement for big vector computing,
what we were seeing was, oh yeah, you could actually use Python as a Swiss Army knife to do a
lot of shadow data transformation kind of stuff. So that's when we realized the potential is much
greater. And so we started an Akonda, I mean, it was called Continuum Analytics at the time,
but we started in January of 2012 with a vision of, I'm sureing up the parts of Python that needed to get expanded to handle data at
scale, to do web visualization, application development, etc. And that was
that. Yeah. So he was CEO, and I was president for the first five years. And
then we raised some money and then the board, it was sort of put in a new CEO.
They hired a kind of professional CEO. and then Travis, you laugh out that.
I took over the CTO role, Travis then left after a year to do his own thing, to do quonsight,
which was more oriented around some of the bootstrappy years that we did at Continuum,
where it was open source, some consulting, it wasn't sort of like Gungho product development,
and it wasn't focused on, you know, we accidentally stumbled into the package management problem at Anaconda.
But we had a lot of other visions of other technology that we built in the open source. And Travis
was really trying to push, again, the frontiers of numerical computing, vector computing, handling,
things like auto differentiation and stuff intrinsically in the open ecosystem.
So I think that's the, you know, that's kind of the direction he's working on and some of his work.
We remain great friends and colleagues and collaborators, even though he's no longer day-to-day,
you know, working at Anaconda, but he gives me a lot of feedback about, you know, this and that and
the other. What's a big lesson you learned from Travis about life, about programming, about leadership?
Wow, there's a lot. Travis is a really, really good guy. His heart is really in it. He cares a lot.
I've gotten that sense having to interact with them. It's so interesting. It's such a good. He's a really good dude
And he and I you know, it's so interesting. We come from very different backgrounds. We're quite different as people
but we
I think we can like not talk for a long time and then and then be on a conversation and be eye-to-eye on like
90% of things and so he's someone who I believe no matter how much fog settles in over the ocean,
his ship, my ship are pointed
sort of in the same direction to the same star.
Wow, that's a beautiful way to phrase it.
No matter how much fog there is,
appointed at the same star.
Yeah, and I hope he feels the same way.
I mean, I hope he knows that over the years now.
We both care a lot about the community.
For someone who cares so deeply,
I would say this about Travis, that's interesting. For someone who cares so deeply about the nerd details of like type
system design and vector computing and efficiency of expressing this and that and the other
memory layouts and all that stuff, he cares even more about the people in the ecosystem
of the community. And I have a similar kind of alignment. I care a lot about the tech. I really do.
But for me, the beauty of what this human ecology has produced is, I think, a touchstone.
It's an early version we should look at it and say, how do we replicate this for humanity at scale?
What this open source collaboration was able to produce, how can we be
generative in human collaboration moving forward and create that as a civilizational kind of dynamic?
Like, can we seize this moment to do that? Because like a lot of the other open source movements,
it's all nerds, nerding out on code for nerds, you know. And the this because it's scientists,
because it's people working on data that all of it faces real human
problems, I think we have an opportunity to actually make a bigger impact. Is there a way for this
kind of open source vision to make money? Absolutely. To fund the people involved? Yeah, it's hard.
It's hard, but we're trying to do that in our own way at Anaconda, because we know that business users, as they use more
of the stuff, they have needs,
like business-specific needs around security,
provenance, they really can't tell their VPs
and their investors, hey, we're having,
our data scientists are installing random packages
from who knows where and running a customer data.
So they have to have someone to talk to you,
and that's what Anaconda does.
So we are a government source of packages for them,
and that's great, that makes them money.
We take some of that, and we just take that as a dividend.
We take a percentage of revenues,
and write that as a dividend for the open source community.
But beyond that, I really see the development
of a marketplace for people to create notebooks,
models, data sets, curation of these different kinds of things.
And to really have a long tail marketplace dynamic with that.
Can you speak about this problem that you
stumbled into of package management by Thon Package Management?
What is that? A lot of people speak very highly of condo,
which is part of Anaconda, which is the package manager. There's a ton of people speak very highly of condo, which is part of an condo, which is the
package manager. There's a ton of packages. So first, what are package managers in second,
what was there before, what is PIP and why is condo more awesome?
The package problem is this, which is that in order to do numerical computing efficiently with Python, there are a lot of low-level
libraries that need to be compiled, compiled with a C compiler or C++ compiler or Fortran
compiler. They need to not just be compiled, but they need to be compiled with all of the
right settings. And oftentimes those settings are tuned for specific chip architectures.
And when you add GPUs to the mix, when you look at different operating systems, you may
be on the same chip.
But if you're running Mac versus Linux versus Windows on the same X86 chip, you compile
a link differently.
All of the complexity is beyond the capability of most data scientists to reason about.
And it's also beyond what most of the package developers
want to deal with too.
Because if you're a package developer,
you're like, I code on Linux, this works for me, I'm good.
It is not my problem to figure out how to build this
on an ancient version of Windows.
That's just simply not my problem.
So what we end up with is we have a creator,
or create a very creative crowdsource environment
where people want to use this stuff, but they can't.
And so we ended up creating a new set of technologies
like a build recipe system, a build system,
and an installer system that is able to,
well, to put it simply, it's able to build these packages
correctly on each of these different kinds
of platforms and operating systems.
And make it so when people want to install something,
they can.
It's just one command.
They don't have to set up a big compiler system
and do all these things.
So when it works well, it works great.
Now, the difficulty is we have literally thousands
of people writing code in the ecosystem,
building all sorts of stuff.
And each person writing code, they
may take a dependence on something else.
And so all of this web, incredibly complex web of dependencies, so installing the correct
package for any given set of packages you want, getting that right subgraph is an incredibly
hard problem.
And again, most data scientists don't want to think about this.
They're like, I want to install NumPy and Pandas.
I want this version of some some geospatial library.
I want this other thing.
Like, why is this hard?
These exist, right?
And it is hard because it's well,
you're installing this on a version of Windows, right?
And half of these libraries are not built for Windows.
Or the latest version is available, but the old version was.
If you go to the old version of this library,
that means you need to go to a different version of that library. And so the Python ecosystem,
by virtue of being crowdsourced, we were able to fill 100,000 different niches. But then we also
suffer this problem that because it's crowdsourced, and no one, it's like a tragedy of the comments,
right? No one really needs, wants to support their thousands of other dependencies. We end up having to do a lot of this.
Of course, the condo forge community also steps up as an open source community that maintains
some of these recipes.
That's what condo does.
PIP is a tool that came along after condo, to some extent.
It came along as an easier way for the Python developers writing Python code
that didn't have as much compiled stuff,
they could then install different packages.
And what ended up happening in the Python ecosystem
was that a lot of the core Python
and web Python developers,
they never ran into any of this compilation stuff at all.
So even we have, on video,
we have Guido Van Rostum saying, you know what, the
scientific community's packaging problems are just too exotic and different.
I mean, you're talking about four-tracking pilots, right?
Like you guys just needed to build your own solution, perhaps, right?
So the Python core Python community went and built its own sort of packaging technologies,
not really contemplating the complexity of this stuff over here. And so now we have the challenge where you can't
pip install some things.
Some libraries, if you just want to get started with them,
you can pip install TensorFlow.
And that works great.
The instant you want to also install some other packages
that use different versions of NumPy or some graphics library
or some OpenCV thing or some other thing,
you now run it to dependency hell.
Because you cannot, OpenCV cannot
have a different version of LibJPag over here
than PyTorch over here.
Like they actually,
they all have to use the,
if you want to use GPU acceleration,
they have to all use the same underlying drivers
and same GPU, CUDA, things.
So it gets to be very gnarly
and it's a level of technology
that both the makers and the users
don't really want to think too much about.
And that's where you step in and try to solve the stuff.
We try to solve it.
We try to solve it.
How much is that, and you said that you don't want to think about it, but how much is it
a little bit on the developer and providing them tools to be a little bit more clear of
that subgraph of dependency that's necessary?
It is getting to a point where we do have to think about, look, can we pull some of the
most popular packages together
and get them to work on a coordinated release timeline,
get them to build against the same test matrix, et cetera, et cetera.
There is a little bit of dynamic around this,
but again, it is a volunteer community.
People work on the term projects,
have their own timelines and their own things they're trying to meet.
So we end up trying to pull these things together and then it's, it's this incredibly, and
I would recommend it just as a business tip.
Don't ever go into business where when your hard work works, you're invisible and when
it breaks because of someone else's problem, you get flack for it because that's for
our, in our situation, right, when something doesn't condo install properly, usually it's
some upstream issue, but it looks like condo's broken, it looks like, you know, anaconda screw something
up. When things do work, though, it's like, oh, yeah, cool, I just worked, assuming naturally,
of course, that's very easy to make that work, right? So we end up in this kind of problematic
scenario, but it's okay, because I think we're still, you know, our hearts in the right place,
we're trying to move this forward as a community sort of a fair.
I think most of the people in the community also appreciate the work we've done over the
years to try to move these things forward in a collaborative fashion.
So one of the subgraphs of dependencies that became super complicated is the move from Python
to Python 3.
So there's all these ways to mess with these kinds of ecosystems of packages and so on.
So I just want to ask you about that particular one.
What do you think about the move from Python 2 to 3?
Why did it take so long?
What were from your perspective just seeing the packages all struggle in the community,
all struggle through this process?
What lessons do you take away from it?
Why did it take so long?
We all struggle through this process. What lessons do you take away from it?
Why did it take so long?
Looking back, some people perhaps underestimated how much adoption Python 2 had.
I think some people also underestimated how much, or they overestimated how much value
some of the new features in Python 3 really provided.
The things they really loved about Python 3 just didn't matter to some of these people on Python 2.
Yeah.
Because this change was happening as Python,
SciPy was starting to take off really like pass like a hockey stick of adoption in the early data science
era in the early 2010s.
A lot of people were learning on boarding in whatever just worked.
And the teachers were like, well, yeah, these libraries I need are not supporting on Python 3
yet, I'm going to teach you Python 2.
Took a lot of advocacy to get people to move over
to Python 3.
So I think it wasn't any particular single thing,
but it was one of those death by a dozen cuts,
which just really made it hard to move off of Python 2.
And also Python 3 itself, as they were kind of breaking things
and changing these around,
and we organized the standard library, there's a lot of stuff that was happening there that
kept giving people an excuse to say, I'll put off to the next version.
Two is working fine enough for me right now. So I think that's essentially what happened there.
And I will say this though, the strength of the Python data science movement, I think,
is what kept Python alive in that transition. Because a lot of languages have died in left, left their user bases behind.
If there wasn't the use of Python for data, there's a good chunk of Python users that during
that transition would have just left for go and rust and stayed.
And in fact, some people did.
They moved to go and rust and they just never look back. The fact that we were able to grow by millions of users,
the Python data community,
that is what kept them a man for Python going.
And now the usage of Python for data is over 50%
of the overall Python user base.
So I will put, I will make,
I'm happy to debate that on stage somewhere
by on with someone if they really want to take issue with that statement.
But from my, where I sit, I think that's true.
The statement there, the idea is that the switch from Python to Python three
would have probably destroyed Python.
If it didn't also coincide with Python for whatever reason,
just overtaking the data science community, anything that processes data.
So, like, the timing was perfect that this maybe imperfect decision was coupled with the
great timing and the value of data in our world.
I would say the troubled execution of a good decision.
It was a decision that was necessary.
It's possible if we had more resources, we could have done it in a way that was a little bit
smoother, but ultimately, you know, the arguments for Python 3, I bought them at the time and
I buy them now, right?
Having great text handling is like a non-negotiable table stakes thing you need to have in a language.
So that's great.
But the execution, you know, Python is the, it's volunteer driven. It's like
the most popular language on the planet, but it's all literally volunteers. So the lack of resources
meant that they had to really, they had to do things in a very hamstrung way. And I think to carry
the Python momentum and the language through that time, the data movement was a critical part of that.
So someone with this care and stick, I actually have to
shamefully admit that it took me a very long time to switch from Python to Python 3 because I'm a
machine learning person. It was just for the longest time you could just do fine with Python 2.
Right. But I think the moment where I switched everybody I worked with and switched myself for small
projects and big is when finally when NumPy announced that they're going to end support, like
in 2020 or something like that.
So like when I realized, oh, this isn't going to end.
So that's the stick.
That's not a carrot. So. So that's the stick. That's stick.
That's not a carrot.
So for the longest time was carrots.
It was like, all of these packages were saying, OK,
we have Python 3 support now.
Come join us.
We have Python 2 and Python 3.
But one numpy, one of the packages I sort of love
and depend on said, nope, it's over.
That's when I decided to switch.
I wonder if you think it was possible much earlier
for somebody like Numpi or some major package
to step into the cold.
Well, it's a chicken and tag problem too, right?
You don't want to cut off a lot of users
unless you see the user momentum going, too. So the
decisions for the scientific community for each of the different projects, you know, there's not a
monolith. Some projects are like, well, only be releasing new features on Python 3. And that was
more of a sticky carrot, right? A firm carrot, if you will, a firm carrot, a stick-shaped carrot.
But then for others, yeah, Numpi in, particularly because it's at the base of the dependency stack
for so many things, that was the final stick.
That was a stick-shaped stick.
People were saying, look, if I have to keep maintaining my releases for Python 2, that's
that much less energy that I can put into making things better for the Python 3 folks,
or in my new version, which is, of course, going to be Python three.
So people were also getting kind of pulled by this tension.
So the overall community sort of had a lot of input
into when the NumPy core folks decided
that they would end of life on Python two.
So as these numbers are a little bit loose,
but there are about 10 million Python programmers
in the world, you could argue that number,
but let's say 10 million Python programmers in the world. You could argue that number, but let's say 10 million.
This is actually where I was looking to say 27 million total programmers, developers in the world.
You mentioned in a talk that changes need to be made for there to be 100 million Python programmers.
So first of all, do you see a future where there's 100 million Python programmers?
And second, what kind of changes need to be made?
So Anaconda, miniconda, get downloaded about a million times a week.
So I think the idea that there's only 10 million Python programmers in the world is a little
bit undercounting.
There are a lot of people who escape traditional counting that are using Python and data
in their jobs.
I do believe that the future world for it to,
well, the world I would like to see
is one where people are data literate.
So they are able to use tools
that let them express their questions ideas fluidly.
And the data variety and data complexity will not go down.
It will only keep increasing.
So I think some level of code or code like things
will continue to be relevant.
And so my hope is that we can build systems
that allow people to more seamlessly integrate
Python kinds of expert sensitivity
with data systems and operationalization methods
that are much more seamless.
And what I mean by that is, you know,
right now you can't punch Python code into an Excel cell.
I mean, there's some tools you can do to kind of do this.
We didn't build a thing for doing this back in the day,
but I feel like the total address of a market
for Python users, if we do the things right,
is on the order of the Excel users,
which is, you know, a few hundred million.
So, I think Python has to get better at being embedded, you know, being a smaller thing that
pulls in just the right parts of the ecosystem to run new merix and do data exploration, meeting people
where they're already at with their data and their data tools and then I think also
It has to be easier to take some of those things they've written and
Flow those back into deploy systems or little apps or visualizations. I think if we don't do those things then we will always be
Captain a silo as sort of a
You know expert users tool and not a tool for the masses masses. I work with a bunch of folks in the Adobe creative suite
and I'm kind of forcing them or inspired them to learn Python
to do a bunch of stuff that helps them.
And they're interesting because they probably wouldn't call themselves a Python programmers
but we're all using Python.
I would love it if the tools like Photoshop and Premiere and all those kinds of tools
that are targeted towards creative people. I guess that's where Excel.
Excel is targeted towards a certain kind of audience that works with data, financial
people, all that kind of stuff.
If they, if there would be easy ways to leverage to use Python for quick scripting tasks.
Yeah.
And I, you know, there's an exciting application of artificial intelligence in this space that I'm hopeful
about looking at OpenAI codecs with generating programs.
So almost helping people bridge the gap from kind of visual interface to generating programs
to something formal and then they can modify it and so on, but kind of without
having to read the manual, without having to do a Google search and stack overflow, which
is essentially what a new network does when it's doing code generation, is actually generating
code and allowing a human to communicate with multiple programs and then maybe even programs
to communicate with each other via Python.
Right. and then maybe even programs to communicate with each other via Python. So that to me is a really exciting possibility because I think there's a friction to kind of,
like how do I learn how to use Python in my life?
There's a, oftentimes you kind of what started a class, you start learning about types,
I don't know, functions.
Like this is, you know, Python is the first language
with which you start to learn to program.
But I feel like that's going to take a long time
for you to understand why it's useful.
You almost want to start with a script.
Well, you do.
In fact, I think starting with the theory behind program
languages and types and all that.
I mean, types are there to make the compiler writers
jobs easier. Types are not, I mean, types are there to make the compiler writers jobs easier.
Types are not, I mean, heck, do you have an ontology of types or just the objects on this table? No.
So types are there because compiler writers are human and they're limited in what they can do.
But I think that the beauty of scripting, like there's a Python book that's called Automate the Boring stuff, which is
exactly the right mentality.
I grew up with computers in a time when Steve Jobs was still pitching these things as bicycles
for the mind.
They were supposed to not be just media consumption devices, but you could write some code,
you could write basic, you could write some stuff to do some things. And that feeling of a computer as a thing
that we can use to extend ourselves
has all but evaporated for a lot of people.
So you see a little bit in parts
in the current generation of youth
around Minecraft or Roblox, right?
And I think Python, circuit Python,
these things could be a renaissance of that,
of people actually shaping and using
their computers as computers, as an extension of their minds and their curiosity, their creativity.
So you know, you talk about scripting the Adobe suite with Python in the 3D graphics world.
Python is a scripting language that some of these 3D graphics suites use.
And I think it's great, we should better support those kinds of things.
But ultimately, the idea that I should be able to have power over my computing environment.
If I want these things to happen repeatedly all the time,
I should be able to say that somehow to the computer.
Now, whether the operating systems get there faster by having some, you know,
Siri backed with OpenAI with whatever.
So you just say, Siri, make this do this,
this is the every other Friday, right?
We probably will get there somewhere.
And Apple's always had these ideas.
There's the Apple script in the menu that no one ever uses.
But you can do these kinds of things.
But when you start doing that kind of scripting,
the challenge isn't learning the type system
or even the syntax of the language.
The challenge is all of the dictionaries
and all the objects of all their properties, attributes, and parameters. Like, who's got time
to learn all that stuff, right? So that's when then programming by prototype or by example,
becomes the right way to get the user to express their desire. So there's a lot of these different
ways that we can approach programming. But I do think, as you were talking about the Adobe scripting thing, I was thinking about, you know,
when we do use something like NumPy,
when we use things in the Python data scientific,
they say expression system,
there's a reason we use that,
which is that it gives us mathematical precision.
It gives us actually quite a lot of precision
over precisely what we mean about this data set,
that data set, and it's the fact that we can have that precision that lets Python be powerful
over as a duct tape for data. You know, you give me a TSV or a CSV, and you, if you give me some
massively expensive vendor tool for data transformation, I don't know, I'm going to be able to solve
your problem. But if you give me a Python prompt, you can throw whatever data you want at me. I will be able to
mash it into shape. So that ability to take it as sort of this like, you know, machete out into
the data jungle is really powerful. And I think that's why at some level, we're not, we're not
going to get away from some of these expressions and APIs in libraries and Python
for data transformation. You've been at the center of the Python community for many years.
If you could change one thing about the community to help a grow, to help it improve, to help it
flourish and prosper, what would it be? I mean, it doesn't have to be one thing, to help it flourish and prosper. What would it be?
I mean, it doesn't have to be one thing,
but what kind of comes to mind?
What are the challenges?
Humility is one of the values that we have
at Anaconda the company,
but it's also one of the values in the community.
That it's been breached a little bit in the last few years,
but in general, people are quite decent and reasonable and nice.
And that humility prevents them from seeing the greatness that they could have.
I don't know how many people in the core Python community really understand
that they stand,
perched at the edge of an opportunity to transform how people use computers.
And actually, Python, my last physical Python I went to,
Russell Keith McGee gave a great keynote
about very much along the lines of the challenges I have,
which is Python for a language
that can't put an interface up
on the most popular computing devices, it's done really well as a language, hasn't it? You can't write an interface up on like the most popular computing devices,
it's done really well as a language, hasn't it?
You can't write a web front end with Python really.
I mean, everyone uses JavaScript.
You certainly can't write native apps.
So for a language that you can't actually write apps
in any of the runtime environments,
Python's done exceedingly well.
Yeah.
And so that wasn't to pat ourselves in the back.
That was to challenge ourselves, the community,
to say we through our current volunteer dynamic
have gotten to this point.
What comes next and how do we see,
we've caught the tiger by the tail,
how do we make sure we keep up with it as it goes forward?
So that's one of the questions I have about
sort of open source communities.
At its best, there's a kind of humility.
Is that humility prevent you to have a vision
for creating something like very new and powerful?
And you brought us back to consciousness again.
The collaboration is a swarm emergent dynamic.
Humility lets these people work together
without anyone trouncing anyone else.
How do they, you know, in consciousness,
there's the question of the binding problem.
How does a singular attention, how does that emerge from, you know, billions of neurons?
So how can you have a swarm of people emerge a consensus that has a singular vision to
say we will do this.
And most importantly, we're not going to do these things.
Emerging a coherent, pointed, focused leadership dynamic from a collaboration, being able to do that,
kind of, and then dissolve it so people can still do the swarm thing.
That's a problem.
It's a question.
So do you have to have a charismatic leader?
For some reason, Linus Tervovol comes to mind, but there's people who criticize.
You use rules that iron fist, man.
But there's still charisma to it.
There's charisma, right? There's charisma to that iron fist, man. But there's still charisma to it. There's charisma, right?
There's charisma to that iron fist.
There's every leader's different, I would say,
in their success, so he doesn't,
I don't even know if you can say he doesn't have humility.
There's such a meritocracy of ideas that like,
this is a good idea and this is a bad idea.
There's a step function to it.
Once you clear a threshold, he's open, once you clear the Boso threshold, he's open to
your ideas, I think.
Right.
But see, the interesting thing is obviously that will not stand in an open source community
if that threshold that is defined by that one particular person is not actually that good.
So you actually have to be really excellent at what you do.
So he's very good at what he does.
And so there's some aspect of leadership
where you can get thrown out.
People can just leave.
You know, that's how it works with open source.
Yeah.
They'll fork.
But at the same time, you want to sometimes be a leader like with a strong opinion
because people I mean there's some kind of balance here for this like hive mind to get like
behind leadership is a big topic and I didn't you know
I'm not one of these guys that went to MBA school and said I'm gonna be an entrepreneur and I'm
gonna be a leader and I'm gonna read all these Harvard Business Review articles on leadership
and all this other stuff like it I was physicist, turned into a software nerd who then really like nerded out on Python.
Now, I am entrepreneurial, right?
I saw a business opportunity around the use of Python for data.
But for me, what has been interesting over this journey with the last 10 years is how
much I started really enjoying the understanding thinking deeper about organizational dynamics and leadership.
And leadership does come down to a few core things. Number one, a leader has to create belief,
or at least has to dispel disbelief. Leadership also, you have to have vision, loyalty, and experience.
So can you say belief in a singular vision?
Like what is belief?
Yeah, belief means a few things.
Belief means here's what we need to do,
and this is the valid thing to do.
And we can do it.
That you have to be able to drive that belief.
And every step of leadership along the way
has to help you amplify that belief to And every step of leadership along the way has to help you amplify that belief
to more people. I mean, I think at a fundamental level, that's what it is. You have to have a vision,
you have to be able to show people that or you have to convince people to believe in the vision
and to get behind you. And that's where the loyalty part comes in and the experience part comes in.
There's all different flavors of leadership.
So if we talk about Linus, we could talk about Elon Musk and Steve Jobs, the Sunderparchai,
this people that kind of put themselves at the center and are strongly opinionated and
some people are more like consensus builders.
What works well for open source?
What works well in the space of programmers.
So you've been a programmer, you've led many programmers and now sort of at the center
of this ecosystem, what works well in the programming world, would you say?
It really depends on the people, what style leadership is best, and it depends on the programming
community.
I think for the Python community, servant leadership is one of the values. At the end of the day, the leader has to also be the high priest of values. So any kind of, any collection of people
has values that they're living. And if you want to maintain certain values and those values help you
as an organization become more powerful, then the leader has to live those values unequivocally and has to hold the values.
So in our case, in this collaborative community around Python,
I think that the humility is one of those values,
servant leadership, you actually have to do the stuff,
you have to walk the walk, not just talk the talk.
I don't feel like the Python community really demands that much from the vision standpoint.
And they should.
And I think they should.
This is the interesting thing is, like so many people use Python from where it comes
the vision.
You know, like you have a Elon Musk type character who has mixed bold statements
About the vision for particular companies. He's involved with and it's like I
Think a lot of people that work at those companies
Kind of can only last if they believe that vision because in some of it is super bold
So my question is and by way, those companies often use Python.
What, you know, how do you establish a vision? Like, get to 100 million users, right?
Get to where, you know, the Python is at the center of the machine learning and
was a data science machine learning, deep learning, artificial intelligence revolution.
Right?
Like in many ways, perhaps the Python community
is not thinking of it that way,
but it's leading the way on this.
Like the tooling is like essential.
Right.
Well, you know, for a while,
Python people in the scientific Python
and the Python data community,
they would submit talks, those are early 2010s, midata community, they would submit talks, those are early
2010s, mid 2010s, they would submit talks to PiCon and the talks would all be rejected
because there was the separate sort of PiData conferences.
And they're like, well, these should probably belong more to PiData.
And instead, there'd be yet another talk about threads and whatever, some web framework.
And it's like, that was an interesting dynamic to see that there was,
I mean, at the time it was a little annoying because we want to try to get more users
and get more people talking about these things and PyCon is a huge venue, right?
It's thousands of Python programmers.
But then also came to appreciate that, you know,
parallel having an ecosystem that allows parallel innovation is not bad, right?
They're people doing embedded Python stuff.
There's people doing web programming,
people doing scripting, they're cyber uses of Python.
I think the ultimately at some point,
if your slide mode covers so much stuff,
you have to respect the different things
are growing in different areas and different niches.
Now, at some point that has to come together
and the central body has to provide resources,
the principle here is subsidy-arity.
Give resources to the various groups
to then allocate as they see fit in their niches.
That would be a really helpful dynamic.
But again, it's a volunteer community.
It's not like that.
That many resources to start with.
What was or is your favorite programming setup?
What operating system, what keyboard, how many screens?
You're listening to what time of day, I drink
coffee, tea, tea, sometimes coffee, depending on how well I slept.
I used to have...
Steve, do you get a unite all?
I remember somebody asked you somewhere a question about work life balance, and not just
work life balance, but a family, you lead a company, and your answer was, was basically like,
I still haven't figured it out.
Yeah, I think I've gotten a little bit better balance.
I have a really great leadership team now supporting me,
and so that takes a lot of the day to day stuff off my plate,
and my kids are getting a little older, so that helps.
So, and of course, I have a wonderful wife
who takes care of a lot of the things
that I'm not able to take care of,
and she's great.
I try to get to sleep earlier now,
because I have to get up every morning at 6
to take my kid down to the bus stop.
So there's a hard thing.
For a while, I was doing polyphasic sleep,
which is really interesting.
Like I go to bed at 9, wake up at like 2 a.m.,
work till 5, sleep three hours, wake up,
like that was actually, it was interesting.
It wasn't too bad.
How did it feel?
It was good.
I didn't keep it up for years, but once I've traveled,
then it just, everything goes out the window, right?
Because then you're like time zones and all these things.
Socially was it, except like were you able to live outside
of how you felt?
Yes.
Able to live normal society.
Oh yeah, because like on the, nice that wasn't out,
hanging out with people or whatever,
going to bed at nine, no one cares.
Yeah.
I wake up at two, I'm still responding to their Slack's emails whenever and you know,
ship posting on Twitter or whatever at two in the morning is great.
He said you were exactly right.
And then he got a bed for a few hours and you wake up.
It's like you had next to day in the middle.
Yes.
And I'd read somewhere that, you know, humans naturally have bifasic sleep or something.
I don't know.
But I read basically everything somewhere.
So every option of everything.
Every option of everything.
I will say that that worked out for me for a while,
although I don't do it anymore.
In terms of programming setup, I had a 27 inch high DPI setup
that I really liked.
But then I moved to a curved monitor, just because,
when I moved to the new house, I want to have
a bit more screen for Zoom plus communications plus you know like various kinds of things like one large monitor one large curve monitor
What operating system Mac?
Okay, yeah, is that what happens when you become important is you stop using Linux and Windows?
I know I actually have a Windows box as well on the next table over
But but I have three tasks, right?
Yes.
So a main one is the standing desk that I can, you know,
whatever, what I'm like, I have a teleprompter set up
and everything else.
And then I've got my iMac and then EGPU and then Windows PC.
The reason I moved to Mac was it's got a Linux prompt, or no Mac was, it's got a Unix prompt,
or sorry, it's got a Unix prompt,
so I can do all my stuff.
But then I don't have to worry,
like when I'm presenting for clients or investors or ever,
like I don't have to worry about any like ACPI related,
F-Sick things in the middle of a presentation,
like none of that.
It will always wake from sleep and it won't kernel panic on me.
And this is not a dig against Linux except that I just, I feel really bad.
I feel like a traitor to my community saying this, right?
But in 2012, I was just like, okay, start my own company.
What do I get?
And Linux laptops were just not quite there.
Yes.
And so I've just stuck with Maxson.
Can I just defend something that nobody
respectable seems to do, which is, I do a book on Linux
Windows, but in Windows, I have Windows subsystems for Linux
or whatever it is.
Yes, I do.
And I find myself being able to handle everything I need,
almost everything I need in Linux for basic sort of tasks, scripting tasks with the NWS all and it creates a really nice environment.
So I've been, but like whenever I hang out with like especially important people, they're
all on iPhone and a Mac and it's like, yeah, like what, there's a messiness to Windows
and a messiness to Linux that makes me feel like you're still in it.
Well, the Linux stuff, Windows Substance for Linux is very tempting, but
there's still the Windows on the outside where I don't know where, and I've been, okay,
I've been, I've used DOS since version 1.11 or 1.2 on or something. So I've been a long time
Microsoft user, and I will say that like, it's really hard for me to know where anything is, how to get to the details behind something when something screws up as an invariably does.
And just things like changing group permissions on some shared folders and stuff, just everything seems a little bit more awkward, more clicks than it needs to be.
Not to say that there aren't weird things like hidden attributes and all that other happy stuff
on Mac, but for the most part,
and it will actually, especially now
with the new hardware coming out on Mac,
that will be very interesting,
with the new M1, there were some dark years,
the last few years when I was like,
I think maybe I have to move off of Mac as a platform.
But this, I mean, like my keyboard was just not working.
Like literally my keyboard just wasn't working, right?
I had this touch bar, didn't have a physical escape button like I needed to because I used
VIM and now I think we're back.
So you use VIM and you have a kind of keyboard.
So I use a real force 87U.
It's a mechanical, it's a topa-row key switch.
It's a weird shape, there's a normal shape.
Okay.
I say that because I use a Kinesis and I and I had you said some dark, you said you had dark
moments.
I've recently had a dark moment.
I was like, what am I doing in my life?
So I remember sort of flying in a very kind of tight space.
And as I'm working, this is what I do on an airplane.
I pull out a laptop and on top of the laptop I'll put a canisa's keyboard
That's hardcore man. I was thinking is this who I am? Is this what I'm becoming?
Will I be this person because I'm on emax with this canisa keyboard sitting like
With everybody around emax on windows
WS all yeah, yeah, emax on Linux on Windows. Yeah, on Windows. And like, everybody around me is using their iPhone
to look at TikTok.
So I'm like, in this land, and I thought, you know what,
maybe I need to become an adult and put the 90s behind me
and use like a normal keyboard.
And then I did some soul searching,
and I decided like, this is who I am.
This is me like coming out of the closet
to say, I'm Kinesis keyboard all the way. I'm going to use Emax, you know, you know,
also Kinesis fan, West McKinney that created pandas. Oh, he, he, he just, he banged out pandas
on a Kinesis keyboard, I believe. I don't know if he's still using one maybe, but certainly
10 years ago, like he was if anyone's out there, maybe we need to have a Kinesis support group.
Please reach out. Isn't there a ready one?
Is there one?
I don't know.
There's got to be an IRC channel, man.
Oh, no.
And you access it through EMAX.
Okay.
Do you still program these days?
I do a little bit.
Honestly, the last thing I did was I had written, I was working with my son to script some
Minecraft stuff.
So I was doing a little bit of that.
That was literally the last code I wrote.
Maybe I did.
Oh, you know what, also I wrote some code
to do some cap table evaluation
and waterfall modeling kind of stuff.
What advice would you give to a young person?
He said your son today in high school,
maybe even college about career, about life.
This maybe where I get into trouble a little bit.
We are coming to the end.
We are rapidly entering a time between worlds.
We have a world now that's starting to really crumble under the weight of aging institutions
that no longer even pretend to serve the purposes they are created for.
We are creating technologies that are hurtling billions of people headlong into
philosophical crises, who they don't even know the philosophical operating systems in their
firmware, and they're heading into a time when I get vaporized. So for people in high school,
and certainly I tell my son this as well, he's in middle school, people in college,
you are going to have to find your own way.
You're going to have to have a pioneer spirit,
even if you live in the middle of the most dense urban environment.
All of human reality around you is the result of the last few generations of humans agreeing to play certain kinds of games. A lot of those games no longer operate according to the rules
they used to.
Collapse is nonlinear, but it will be managed.
And so if you are in a particular social cast or economic cast,
and it's not, I think it's not kosher to say that about America, but America is very
stratified in classist society.
There's some mobility, but it's really quite classist.
In America, unless you're in the upper middle class, you are headed into very choppy waters.
So it is really, really good to think and understand the fundamentals of what you need to build
a meaningful life for you, your loved ones, with your family, and almost all of the technology
being created that's consumer facing is designed to own people, to take the four stack, you know,
of people, to delaminate them and to own certain portions of that stack.
And so if you want to be an integral human being, if you want to have your agency and you
want to find your own way in the world, you know, when you're young, would be a great
time to spend time looking at some of the classics around, you know, what it means to live a
good life, what it means to build connection with people.
And so much of the status games, so much of the stuff,
you know, one of the things that I sort of talk about as we create
more and more technology, there's a gradient technology and a gradient technology
always leads to a gradient in power.
And this is Jacques Allouls point to some extent as well.
That gradient in power is not going to go away.
The technologies are going so fast
that even people like me who help create some of the stuff I'm being left behind, that's on the cutting edge research, I don't know what's going on against today, you know,
I go read some proceedings. So as the world gets more and more technological, it will create more
and more gradients where people will seize power economic fortunes and the way they make the people who are left behind,
okay, with their lot in life,
is they create lottery systems.
They make you take part in the narrative
of your own being trapped in your own economic sort of zone.
So avoiding those kinds of things is really important,
knowing when someone is running game on you basically.
So these are things I would tell young people.
It's a dark message, but it's realism.
I mean, that's what I see.
So after you gave some realism, you said back, you said back with your son, you looking
out of the sunset, what to him can you give as words of hope and to you?
From where do you derive hope for the future of our world?
So you said at the individual level, you have to have a pioneer mindset to go back to the
classics to understand what is in human nature you can find meaning, but at the societal level,
what trajectory, when you look out possible trajectories, what gives you hope?
What gives me hope is that we have little tremors now, shaking people out of the
reverie of the fiction of modernity that they've been living in, kind of a late 20th century
style modernity.
That's good, I think, because, and also to your point earlier, people are burning out
on some of the social media stuff.
They're sort of seeing the ugly side, especially the latest news with Facebook and the whistleblower, right?
It's quite clear these things are not all they're cracked up to be.
So do you believe, I believe better social media can be built because they are burning out.
No, incentivize other competitors to be built.
Do you think that's possible?
Well, the thing about it is that when you have extractive
return on returns, you know, capital coming in is saying,
look, you own a network, give me some exponential dynamics
out of this network. What are you going to do?
You're going to just basically put a toll keeper
at every single node and every single graph edge,
every node, every vertex, every edge.
But if you don't have that need for it, if no one's sitting there saying, hey Wikipedia, monetize every note, every text of the edge. But if you don't have that need for it, if
no one's sitting there saying, hey Wikipedia monetize every character, every bite, every
phrase, then generative human dynamics will naturally sort of arise, assuming we do,
we respect a few principles around online communications. So the greatest and biggest
social network in the world is still like email SMS, right? Yes.
We are fine there.
The issue with the social media as we call it now is they're actually just new amplification
systems.
Right?
Now it's benefit of certain people like yourself who have interesting content to be amplified.
So it's created a creator economy and that's cool.
There's a lot of great content out there.
But giving everyone a shot at the fame lottery saying, hey, you could also have your,
if you wiggle your butt the right way on TikTok,
you could have your 15 seconds of micro fame.
That's not healthy for society at large.
So I think if we can create tools
that help people be conscientious about their attention,
spend time looking at the past
and really retrieving memory and calling,
not calling, but processing and thinking about that.
I think that's certainly possible
and hopefully that's what we get.
So I'm, so I think the bigger picture,
the bigger question you're asking about,
what gives me hope is that these early shocks of,
COVID lockdowns and remote work
and all these different kinds of things.
I think it's getting people to a point where
they are looking, they're sort of no longer in the reverie,
as my friend Jim Rutte says,
there's more people with ears to hear now,
with pandemic and education.
Everyone's like, wait, wait, what have you guys been doing
with my kids?
How are you teaching them?
What is this crap you're giving them as homework, right?
So I think these are the kinds of things that are getting in the supply chain disruptions,
getting more people to think about, how do we actually just make stuff?
This is all good.
But the concern is that it's still going to take a while for these things, for people to learn to be agentic again,
and to be in right relationship with each other and with the world.
So the message of hope is still people are resilient and we are building some really
amazing technology.
And I also, like, to me, I derive a lot of hope from individuals in that van, the power
of a single individual to transform the world
to do positive things to the world is quite incredible.
Like you've been talking about, it's nice to have as many of those individuals as possible,
but even the power of one, it's kind of magical.
It is, it is.
We're in a mode now where we can do that.
I think also, you know, part of what I try to do is in coming to podcasts like yours
and then, you know, spamming with all this philosophical stuff that I've got going on,
there are a lot of good people out there trying to put words around the current technological,
social, economic crises that we're facing. And the space of a few short years, I think there
has been a lot of great content produced around this stuff for people who want to see,
want to find out more or think more about this. We're popularizing certain kinds of philosophical ideas
that move feel beyond just the oh, you're communist, oh, you're capitalist kind of stuff. Like it's sort of we're way past that now.
So that also gives me hope that I feel like I myself am getting a handle on how to think about these things.
It makes me feel like I can, you know,
hopefully affect change for the better.
We've been sneaking up on this question all over the place.
Let me ask the big ridiculous question.
What is the meaning of life?
Wow.
The meaning of life.
Yeah, I don't know. I mean, I'm not really
understood that question. When you say meaning crisis, you're
saying that there is a search for a kind of experience that
could be described as fulfillment as like the ah, like the
aha moment of just like joy joy and maybe when you see something beautiful
or maybe you have created something beautiful, that experience that you get, it feels like
it all makes sense. So some of that is just chemicals coming together in your mind and all
sorts of things, but it seems like we're building a sophisticated
collective intelligence that's providing meaning in all kinds of ways to its members.
And there's a theme to that meaning. So for a lot of history, I think faith played an important role,
faith in God, sort of religion, I think technology in the modern era is kind of serving a little bit of a
source of meaning for people like innovation of different kinds. I think the old school things of love and the basics of just being good at stuff. But you were a physicist. So there's a desire to say, okay, yeah,
but these seem to be like symptoms of something deeper. Right. Like why? What's capital
I'm meaning? Yeah, what's capital I'm meaning? Why are we reaching for order when there's
excess of energy? I don't know if I can answer the why. Any why that I come up with I think is going to be
I'd have to think about that a little more maybe maybe get back to you on that but I will say this
we do look at the world through a traditional I think most people look at the world through
what I would say is a subject object to kind of metaphysical lens that we have our own subjectivity
I would say is a subject object, a metaphysical lens, that we have our own subjectivity, and then there's all of these object things that are not us.
So I'm me, and these things are not me, right?
And I'm interacting with them, I'm doing things to them.
But a different view of the world that looks at it as much more connected, that realizes,
oh, I'm really quite embedded
in a soup of other things.
And I'm simply almost like a standing wave pattern
of different things, right?
So when you look at the world in that kind of connected sense,
I've recently taken a shine to this particular
thought experiment, which is, what if it was the case
that everything that we touch with our hands, that we pay attention to,
that we actually give intimacy to? What if there's actually, you know, all the mumbo jumbo, like,
you know, people with the magnetic healing crystals and all this other kind of stuff and quantum
energy stuff? What if that was a thing?
What if when you're literally,
when your hand touches an object,
when you really look at something
and you concentrate and you focus on it
and you really give it attention,
you actually give it,
there is some physical residue of something,
a part of you,
a bit of your life force that goes into it.
Okay, now this is of course completely mumbo jumbo stuff.
This is not like I don't actually think this is real,
but let's do the thought experiment, what if it was?
What if there actually was some quantum magnetic crystal
and energy field thing that just by touching this can,
this can has changed a little bit somehow.
And it's not much unless you put a lot into, and you touch it all the time, like your
phone, right?
These things gained, they gained meaning to you a little bit.
But what if there's something that, technical objects, the phone is a technical object,
it does not really receive attention or intimacy and then allow itself
to be transformed by it. But if it's a piece of wood, if it's the handle of a knife that
your mother used for 20 years to make dinner for you, right, what if it's a keyboard
that you banged out your world transforming software library on? These are technical objects
and these are physical objects, but somehow
there's something to them. We feel an attraction to these objects as if we haven't viewed them with
life energy. So if you walk that thought experiment through, what happens when we touch another person,
when we hug them, when we hold them? And the reason this ties into my answer for your question is that
The reason this ties into my answer for your question is that
There's if there is such a thing if we were to hypothesize you know, hypothesize such a thing
It could be that the purpose of our lives is to imbue as many things with that love as possible.
That's a beautiful answer and a beautiful way to end it. Peter, you're an incredible person. Thank you.
Thank you. And I'm so much in the space of engineering and in the space of philosophy.
I'm really proud to be living in the same city as you.
And I'm really grateful that you have spend your valuable time with me today. Well, thank you. I appreciate the opportunity to speak with you
Thanks for listening to this conversation with Peter Wang to support this podcast
Please check out our sponsors in the description and now let me leave you with some words for Peter Wang himself
We tend to think of people as either malicious or incompetent, but in a world filled with
corruptible and unchecked institutions, there exists a third thing, malicious incompetence.
It's a social cancer, and it only appears once human organization scale beyond personal
accountability.
Thank you for listening, and hope to see you next time.
you