Shawn Ryan Show - #215 Charles Hoskinson - Cardano Founder on the Secret DARPA AI Project That Became Siri
Episode Date: July 7, 2025Charles Hoskinson is the CEO and Founder of Input Output Global (IOHK), the company behind the Cardano blockchain, a proof-of-stake platform hosting the ADA cryptocurrency. A mathematician by training..., Hoskinson co-founded Ethereum in 2013. He launched IOHK with Jeremy Wood in 2015, raising $62 million in a 2017 ICO for Cardano, initially targeting the Japanese market before global expansion. Hoskinson advocates for decentralized governance, as seen in Cardano’s 2024 Voltaire framework and 2025 Wyoming Integrity PAC to challenge state stablecoin policies. His ventures extend to longevity science, with a $100 million investment in the Hoskinson Health & Wellness Clinic in Wyoming, and quirky pursuits like glow-in-the-dark botany and a 2023 Papua New Guinea expedition for extraterrestrial objects. With a net worth estimated at $1.2 billion, he owns an 11,000-acre Wyoming ranch and remains a vocal critic of centralized control in crypto. Shawn Ryan Show Sponsors: https://americanfinancing.net/srs NMLS 182334, nmlsconsumeraccess.org https://tryarmra.com/srs https://betterhelp.com/srs This episode is sponsored. Give online therapy a try at betterhelp.com/srs and get on your way to being your best self. https://meetfabric.com/shawn https://shawnlikesgold.com https://hillsdale.edu/srs https://masachips.com/srs – USE CODE SRS https://paladinpower.com/srs – USE CODE SRS https://patriotmobile.com/srs https://rocketmoney.com/srs https://ROKA.com – USE CODE SRS https://trueclassic.com/srs https://USCCA.com/srs https://blackbuffalo.com Charles Hoskinson Links: X - https://x.com/IOHK_Charles YouTube - www.youtube.com/@charleshoskinsoncrypto Input Output Global - https://iohk.io Cardano - https://cardano.org Learn more about your ad choices. Visit podcastchoices.com/adchoices
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Charles Hoskinson, welcome to the show.
It's good to be here, Sean.
How you been?
Amazing.
I had a great breakfast with you.
It was a lot of fun.
But I've been wanting to have you on the show for a super long time.
And so now to have you here, it's just, it's awesome.
You are a fascinating individual. You've
got your hands in all kinds of different stuff and I want to dive into it as, into all of
it as much as we possibly can. And then, and then we had breakfast and I was like, oh man,
I could go for days with this guy.
Right. There's a lot, there's a lot there.
So thank you for coming.
Well, I do appreciate it. You're one of the OGs and this is an amazing studio, by the way
It's uh, you got some artifacts here man. A lot of history a lot of history
But yeah, a lot of the guests have sent in stuff and we probably only covered about half of it
but but yeah, it's a lot of good people have sat in here and
Now you're one of them. So thank you again, but
everybody starts off with an introduction here so here we go
Charles Hoskinson co-founder of Ethereum and the CEO and founder of Input Output
the company behind the Cardano blockchain Cardano is positioned to be
included in the US strategic Crypto Reserve alongside Bitcoin,
Ethereum, XRP, and Solana.
He testified in front of US Congress regarding crypto currency regulation, operate an 11,000
acre bison ranch in Wyoming, owned both a construction company and state of the art
healthcare clinic focused on anti-aging in rural Wyoming.
Part of the group that de-extincted the Dire Wolf, co-founder of a lab that is genetically engineering bioluminescent plants,
funded and joined a maritime expedition near Papua New Guinea that recovered extrasolar fragments from the ocean floor.
In 2021, founded the Hoskinson Center for Formal Mathematics at Carnegie Mellon University
and most recently decided to wear gloves filled with bullet ants in a ceremony in Brazil.
And there's a lot more, but we'll get into it later on in the interview.
So I want to do a life story on you and starting from childhood, getting into the Cardano and Ethereum and then every, all these different ventures that you're
doing now, it seems to me like you just do whatever the hell you're interested
in and go in that direction.
Right.
You know, you get enough money, you just do whatever you want.
So I just did everything and I don't know if I can keep this up
because I'm getting pretty tired.
There's too many pots in the fire.
I don't know how you keep it all straight, but, uh,
we're at like six companies now or something like that.
Man, man.
But a couple of things to do before we get into it.
So I have a Patreon account.
It's a subscription account.
We've turned it into quite the community.
They've been here with me since the beginning
when I started this in the attic.
And they're the reason that I get to be here today with you.
And so one of the things I do is I offer them
the opportunity to ask each and every guest a question
So this is from Andre
What do you see is the business? What do you see is the biggest?
physiological failure and how
cryptocurrencies have been implemented since their inception and how is Cardano attempting to correct that course so
the one of the biggest challenges with cryptocurrencies is that you'd like them, for them to be successful,
adopted to be cooperative.
But the way tokenomics work, the way the actual underlying tokens connected to the infrastructure,
they're intrinsically adversarial.
So it's like kind of a sum zero market.
So for Bitcoin to win, Ethereum must fail.
For Ethereum to win, Bitcoin must fail.
And for crypto to win, well, the banking industry has to fail and everybody has to go over to
crypto.
That's not how the world works.
If you look at real modern business, geopolitics, religion, whatever it is, you have to find
cooperative equilibria.
You have to find a way that if I win, you win.
If I make money, you make money.
They've been tremendously
successful from a growth hacking perspective. Cryptocurrency has gone from
nothing to 550 million users within 15 years, from no value to a multi-trillion
dollar ecosystem, but they have still stayed somewhat divorced from the web2
world and the legacy financial world. They're not interconnected and
interoperable. So really the next five to 10 years in the industry,
it's about how do you build bridges
and how do you reset the incentive layer of the system
so that people make more money cooperating together.
And we're starting to see this with stable coins,
for example, they're working their way
into the cryptocurrency space and they went from nothing
to $243 billion of stable coins issued with Tether
and Circle and the other major standards,
about 180 million transactions per month.
So huge amount of volume.
And probably by 2030, we're gonna have stable coins grow
to about a trillion dollar to two trillion dollar vertical.
Wow.
And probably about 500 million
to a billion transactions per month.
So massive growth.
Under the hood, they're just tokenized treasuries.
You know, short-term treasuries, you buy them,
you get a few points of interest.
And so they just took them, they tokenized them,
they put them on a blockchain.
Well, why do people want them?
Well, the cryptocurrency space, we want them
because it's too volatile.
Bitcoin goes way up, it goes way down.
I was in Bitcoin before it was a dollar,
and I watched it go to $30 down to four.
I watched it go all the way up to $256 down to $80,
then up to $1,200, then down to $250, then up to $20,000.
Woo, cocaine and hookers, yay.
And then down to $4,000, then up to $68,000,
then down to $25,000, and then all the way up to $100,000.
It's just crazy times.
You can't build an economy
if you have that level of volatility.
So you need value stability, and then you can can create credit and then you can have an economy.
Well the legacy world can do that.
There is constructions there.
But crypto has to learn how to work with that world.
Why does the legacy world want to work with crypto?
Well this allows you to dollarize places that normally can't be dollarized.
So you look at Argentina or you look at Venezuela or where all these places are, they would
much rather have US dollars than pesos,
you know, because the volatility is so high you can't trust the banks in these places.
So Argentina, for example, the economy is 700 billion dollars through GDP.
There's already a hundred billion dollars in cryptocurrency assets that are floating around.
So one out of every seven dollars of value is in crypto.
Why? Because they don't trust the local currency.
So they went to stable coins.
So if you're a bank or an issuer,
you say, wow, this is the best business in the world.
I embrace this crypto, I tokenize treasuries,
I get the yield, they get the stability,
and I get basically free money.
Which is why Tether is now, I think,
the seventh or eighth largest holder
of US treasuries in the world.
And they make, they're more profitable than Goldman Sachs,
even though they only have 250 employees.
No kidding.
Yeah, so it's those cooperative economics
where the legacy world can do something,
the crypto world can do something
and when you bring these two things together
and both sides make money, both sides gets value,
that's what we need to do.
Now, specifically for Cardano, Cardano was always designed
to be a highly upgradable
cryptocurrency. And the way we constructed it is we constructed it where there's an angle
for the regulated business to exist. We have technology called Midnight that's coming out
and it's going to allow rational privacy and selective disclosure and all these things
that are required for how the legacy financial world exists. But then also at the same time,
it has the same ethos and values that Bitcoin does,
which is the largest market.
So it's fully decentralized
and it has all these amazing capabilities.
So we kind of straddle both those worlds
and we take this slow and deliberate function,
but what's nice about it,
because of that, the network has never gone down.
For eight years straight, Cardano's operated
24 hours a day, seven days a week.
It's been hammered and attacked
and everybody's tried to kill it.
It's just Johnny live a lot, keeps going, keeps doing things.
It creates a resilience and a trust that's required for people to build that type of
infrastructure.
It's a challenging space.
It's highly adversarial.
It's highly competitive.
You think politics is bad, crypto Twitter is probably much worse than anything
Trump's ever said or Biden's ever said or whatever. It's a tough world to live in
But in general we just keep that durability and we always have one eye on the future
Like what is going to be required to bring trillions of dollars of real-world assets into the space?
What is required to bring Bitcoin into a space where it can participate in the DeFi world and these things.
And by doing that, the network has grown.
It's gone from nothing to about 4.3 million active wallets, and we think we'll probably
grow to more than 10 to 15 by the end of the decade.
So it's got a very nice growth rate for it.
And also, it now works with everything.
So Cardano can start talking to Solana, to Ethereum, and to Bitcoin, and to all these
other standards.
And that's what it should be.
Their success should be our success and their users should be our user and vice versa.
That's what's required for to win.
What do you mean they should be talking to each other?
So the chains are independent infrastructure.
So if you have an asset or an application that lives on Ethereum,
it doesn't natively know how to speak the language of an asset
or an application
living on Solana or Bitcoin or Cardano.
So to talk to each other means that you actually create interoperability and now for the first
time ever you can move users and assets, value, liquidity between the different systems.
So imagine like foreign banking systems.
So you can't really send a wire transfer to Iran easily or back, because the systems have been chopped up
and isolated because of sanctions.
So imagine Wi-Fi if your phone could only connect
to an Apple router or to a Samsung router
and it couldn't connect to any other router.
Well, that'd be a crazy protocol, right?
Or Bluetooth, like my Bluetooth headset only connects
to my iPhone, but nothing else.
So long time ago, we realized that interoperability
is a super important feature. And so when you look at Cardano, one time ago, we realized that interoperability is a super important feature.
And so when you look at Cardano,
one of the things we realized was it's less about
how do I lock you into the system?
And it's more about how do I get the system
to talk to all the other systems?
What is that wifi moment for the industry as a whole?
And just in solving interoperability,
then you see a massive flow of transactions,
a massive flow of users,
and eventually that becomes your commercial engine.
So that's what I mean by talking to each other.
And then the other side of talking to each other is
how do you, for the big stakeholders in those ecosystems,
so the people that control billions of dollars of the asset
or have built large applications with many users,
how do you work with them to create value for them?
So a great example would be Brave.
It's a very popular browser.
It's got about 86 million users.
Joe Rogan's a user, tons of people use it.
And it was founded by the guy who created JavaScript,
Brendan Ick.
And Brendan actually is a pioneer.
He started Netscape with a bunch of other guys,
and then he was the CEO of Mozilla, which was Firefox,
and now he has Brave.
Well, Brave built into it wants to be
as decentralized as possible.
They have an ad model called BATS,
and they have a VPN model to keep your information
secret and private.
Well, they don't wanna be in a position
where they're a data custodian,
and they know everything about you,
and trust me, bro, everything works great.
They wanna be in a position where they help you
get the level of privacy you want and
they help you share your data when and how you want to do that in exchange you get paid
to do that, but they know nothing about you.
Well cryptocurrency technologies enable this to happen really well for them, which is why
they launched their own token called BATS and these other things.
So how do we make their ad model better?
How do we make their VPN model better? How do we make their VPN model better?
How do we grow that?
And then that solves a problem for 88 million users
and it helps them grow then to 100 million users
or 150 million users.
Well, once those users are on our ecosystem,
well then they also will do other things.
They'll participate in NFTs and DeFi things
and whatever the heck of the latest and greatest
newfangled thing is in the space.
So their users are our users and our users are their users.
That's a cooperative equilibria that you look for.
And if you solve their ad problem, you find a better way to do ads that preserve their privacy
and actually share the ad revenue with the people who provide the information.
Well, that's just as useful to Microsoft and Meta and to Google as it is to Bats,
because they don't want to be a data custodian,
and they just want the semantical value of the data. and meta and to Google as it is to bats, because they don't wanna be a data custodian
and they just want the semantical value of the data.
They wanna be able to micro target people and sell things,
but they don't wanna be in the business
of knowing every single detail about who you are.
And it's a liability, because if they ever get hacked,
then they lose all that data.
So you can create economies for these types of things
and then you can start creating ecosystems around them
and then you revolutionize the offering.
And every time you do it, it gets more decentralized,
and you push more value to the edges.
And then you can start cutting people in on things that they previously gave away for free.
Very interesting.
Does crypto overtake the current system eventually?
No, I think it'll merge.
It's like new media and online media versus legacy media.
It just became media.
And so the really smart people,
like the New York Times and other people,
they were quick to realize that they had to get on the web
and build a web footprint.
And then the dinosaurs like the Rocky Mountain News
and others, they didn't get that right
and they went out of business.
And so very similarly, when you look at finance,
you have TradFi and DeFi.
It's gonna merge and become Fi.
And both sides help each other out.
So in terms of the legacy world, the cost of compliance is too high.
It's $500 billion a year globally.
So you could buy Tokyo every three years if you want to comply with KYC, know your customer,
anti-money laundering, anti-terrorist financing.
It's extraordinary when you look at the global cost of that.
And then also just settlement time is too slow.
It takes days or weeks to do certain things.
And liquidity is siloed.
And so the American liquidity is different from the Dubai liquidity, different from the
German liquidity in a dramatic sense because what if a German person wants to buy an American
product or a person in Dubai wants to buy an American product?
Why do they have to go and through all these hops and loops to get into the American market?
So the legacy world, they want automated compliance, they want universal global liquidity, and
they want more transaction volume.
Okay, well the Web 3 side of the world wants all the money.
They want the capital that's currently locked up in BlackRock and the capital that's locked
up in Goldman Sachs and all these other places to move over into crypto products.
So there's a marriage there if they can kind of put these pieces together.
One creates innovation and reforms the legacy world and the other provides the users and
ultimately the raw economic value.
Well, when those systems merge, it gets harder and harder to distinguish what's crypto versus what's not crypto.
Like here's an example, let's say the Genius Act passes,
which is a piece of legislation
that's almost through the Congress right now
to regulate stable coins.
Well, the minute that passes,
Microsoft could wake up and say, you know what?
We wanna issue our own stable coin
and we wanna create a cryptocurrency wallet into Windows
and just have it right there.
So when you boot up your Windows 11,
it's right in the system tray and you click a button for it.
Well, the consumer, when they see that,
they'll probably say dollars.
Well, let's say cryptocurrency on cryptocurrency XYZ.
Just say dollars.
And you can use your credit card to like top it up
and transfer money into it.
And it's seamless,
because they'll have great bank infrastructure
on the back end, because Microsoft is so big and so rich.
What did they just do?
They just onboarded two billion people
into the cryptocurrency space.
Now why would Microsoft want to do this?
Well, they have customers in Sri Lanka,
and they have customers in Bangladesh,
and they have customers in Burundi,
and all these other places,
and it's really expensive for them to move money
in and out of those countries,
and sell products in and out of those countries.
And you don't want to take a $100 product
and have $20 disappear because of Forex risk
and intermediaries and all these things.
You would much rather that customer
have a decentralized money
and have a direct financial relationship with you.
And no matter where that dollar gets sent to you
for that purchase, you get 100% of the purchase value.
You'd much rather have that relationship.
So if they issue a stablecoin, then voila,
they have that, it's all there.
So the temptation for the Mag-7 to come in,
the Magnificent 7, like the Apples and the Microsoft,
the Metas, is extremely strong.
And in fact, Facebook tried to enter the cryptocurrency space
a few years ago with a project called Libra,
and it kinda got smashed down by the regulators,
but they were coming in with MasterCard
and all these other guys,
because they wanted to turn WhatsApp
and Facebook Messenger into a payment system.
You're chatting with somebody and he said,
hey, you know, Sean, can I borrow 20 bucks?
Sure, you just tap your phone, you send 20 bucks.
Just like that, no banks involved.
It's person to person, completely decentralized.
Because they said, well, hang on, we have billions of people on this platform, we can
be the world's largest payment processor through this whole setup.
So there's too much temptation for these guys to come in.
They were just waiting for the regulatory window to open and then they come in.
And once they come in, the consumer's not really thinking, I'm in the cryptocurrency
space, I'm a cryptocurrency entrepreneur.
It just feels like a better PayPal.
It feels like a better traditional bank interface.
You see?
Makes sense.
Wow, wow.
We're gonna get more into this.
Before I forget, everybody gets a gift.
You got it for me.
Those are Vigilance League gummy bears,
legal in all 50 states, made in the USA.
You could even pay for those in crypto.
But yeah, everybody gets a gift.
So there it is.
Thank you, sir.
My pleasure.
I'll put that right there.
But you know, I want to get into your life story, but I want to talk about these bioluminescence
plants first.
That we had, you showed me some pictures at breakfast.
It, it, wow.
I mean, it looks like, it looks like, it looks like something out of a movie and
the light that these things are putting off.
I mean, it looks like it looks, we can't show these pictures yet.
It looks like they're under a black light and they're just
glowing in these magnificent neon colors.
So let's get into that real quick.
Not real quick.
Let's get into that and then we'll get into your life story.
Where did this come about from?
So for many years,
I always wanted to do a synthetic biology company.
Because when I was in college, you know,
I didn't know if I wanted to be a doctor or mathematician.
So I took a ton of biology classes and chemistry classes.
And a lot of my friends who went deeper into that,
they started, it was because they were right at the beginning
of the CRISPR era and the whole gene therapies
and all these things. So they were doing all the time genetic engineering CRISPR era and the whole gene therapies and all these things
So they were doing all the time genetic engineering and they kept saying well There's all these cool things that will be possible in 10 or 20 years and like like what they're like
Well, you know you could take human skin cells and merge them with octopus dna
And then you know octopus can actually change its color
So you can make a human skin cell be able to change its color and camouflage itself, kind of like the predator or something like that.
It's like, wow, that's cool.
Or you can take luciferase in this case
and put it into any plant you want
and you can make a plant glow in the dark.
And so for more than two decades,
I was aware that these capabilities
would be evident at some point.
Really, I was looking for a partnership
that would make sense.
And so it was a serendipity.
I met Ben Lamb and Ben is a, he's a genius.
He's a great guy, a wonderful guy.
And he's kind of like me where he likes doing
a little bit of everything.
We both like the alien stuff and this thing.
And he started all these weird startups
and these make quite a bit of money from him.
And he was just getting started with a startup
called Colossal, which I invested in. And Colossal is kind of famous for bringing back the dire wolf and they're working
on the willy mammoth right now. And it's an amazing company. So Ben and I were talking about,
was there a way that we could do something with Colossal in the cryptocurrency space?
And this was back in 2021. And as like a side conversation, I mentioned to him,
hey, it'd be really cool if we could do glow in the dark plants and,
you know, let's think this out.
And he's like, I want to do that too.
And George Church, the guy that started Colossal with him, like, was an expert in this area.
He wrote all the books on synthetic biology, like Regenesis was one book and over a thousand
papers and these things.
He's like a gigabrain out of Harvard.
He had all this technology to basically do this. And it was one of those like,
did we just become best friends?
You know, type of thing.
So we're like, we gotta start a company.
He's like, yeah, shit, we gotta start a company.
So we ended up starting a company
and we're still running mostly in Simon.
And they hate it when I talk about this stuff,
but every now and then I'll be like,
hey, there's some cool stuff coming.
And really what we've been working on
is more than just this concept of bioluminescent plants,
which is super cool and interesting, but also we've been working on this idea of using synthetic
biology to engineer plants to be better adapted for our goals in the environment that they're
put in.
So let's say that you're in Saudi Arabia and you're building Neom and you're MBS and you
have this grand vision of like this trillion dollar massive mega city in the middle of
damn nowhere that, and you want to terraform the entire world.
Well, there's only so much you can do with steel and concrete and glass.
At some point you have to use agriculture and what you'd like to do is reclaim the desert
and turn it into a different biome because who wants to be in a desert?
You want to be somewhere interesting.
That's why we're out here in Tennessee and this morning we had breakfast.
That place was gorgeous.
It had all this beautiful lush greenery everywhere you look.
Well I'd love to see that if I was MBS.
And so what if you had a company that understood so well how to modify the ambient environment
that it could conceive of plants to do such a thing.
Or what if your goal is carbon reduction?
You can make plants that sequester enormous amounts
of carbon or what if your goal
is environmental reclamation?
Let's say you have a shooting range,
what's your number one problem?
You're gonna accumulate a lot of lead over time, right?
And so what if you had plants that seeped it
right out of the soil so it doesn't get into the water
and sequesters inside the plant?
You can do these types of things.
So bioluminescence is a really magical thing because it's one of those, like, you can see it.
It's not a hypothetical, like, if I make plants that sequester carbon,
oh, that's cool, they sequester carbon.
I can't see it.
It doesn't really appear to be anything meaningful.
But here, it's just magic.
It's something that never existed before.
And you can imagine the art of the possible,
glowing cities, glowing golf courses, organic lighting,
all these magical, amazing things.
So, and the other thing is that once you've mastered that
as a platform, then all those other use cases become
tractable and useful and easy.
Because you now know how to pretty much do anything you
want with the organism, you know
And what's cool is the bioluminescence can also be a guide tell you whether those genes have been taken or not
Because you can cross link them and you can say well if it glows this color
It has this property if it glows this color it has this property or these types of things
So there's there's a method to the madness and it gets people instantly interested interested, and they always say, oh, that's AI,
or that's a fantasy, or it's under a black light,
or something, and then they physically see it,
and they say, wow, this is incredible.
And so at some point soon, we'll go out of silent mode
and actually have a big showing of these types of things
to get people very excited about it.
But every now and then, when I meet an interesting person,
I kind of share it, because people say,
wow, the world is moving in kind of a new place.
And then they always ask for something.
They're like, can you make this plant glow?
Or can you do this color?
Or wouldn't it be cool if we could decorate this way
or do this thing?
And then we say, oh, that's a good idea.
And you kind of take it and you say,
maybe we should work on that or something like that.
You know, I don't know how far you want to dive into this.
So I don't want to push, but you had mentioned
some early detection systems
that these plants could be used for.
Yeah, sentinel plants.
And so imagine you're coal miner
and you're in West Virginia or Pennsylvania or somewhere.
Gillette is like one of the coal capitals of the world,
but we have these big open pit mines,
which are a lot safer.
But let's say you're underground, you're coal miner,
what's your number one problem?
You're worried about methane,
because it naturally leaches off the walls
and you don't smell it.
Most people, when they think of natural gas,
oh, it smells terrible.
That doesn't actually, it's odorless.
It smells terrible because after they process it,
they put a chemical in it so you can detect it
and you can smell it.
So if you're a miner in a mine
and natural gas is building up, it's a silent killer.
It explodes and so it's terrible.
So they have to always detectors
and that's why they had the Canary coal mine,
this type of thing.
So imagine a plant, a cave moss or something
and it doesn't glow unless there's methane
and when it does, it glows red.
It's called a sentinel plant, right?
And you can use this for military applications, for industrial applications, for environmental
applications, you know, these types of things.
And that's the art of the possible.
And that's what gets people very excited about this technology.
Because then you say, okay, the plant is now an information transmitter about something
in my environment.
And it does it naturally and organically and it's just there. And once you have
that capability then what that does for you is it puts you in a position where you are able to kind
of ask your the people you're working with what do you want? You know what would improve safety? What
would improve the experience? You know what would improve the ambiance of where we're at. And then you can design the plants, you can design this biology around that desire.
So that's what gets me most excited about it.
And what's cool is it's the only time ever where like Hollywood is interested and restaurants
are interested and casinos are interested and the Air Force is interested.
You know, it's like there's this huge spectrum of people.
It's a magical company. And I love those magical companies. They just make people want this huge spectrum of people. It's a magical company.
And I love those magical companies.
They just make people want to be part of it.
They want to be invested in it.
They brag to their friends,
like I am in this coolest company in the whole world.
And Colossal is much the same way.
Any Ben Lamb company is this way.
This is why he's a genius.
It's like you invest in Colossal, you're like,
oh yeah, yeah, I'm part of that whole Willy Mammoth thing
and that whole Dire Wolf thing.
You're like, holy shit, that's awesome. Tell me more. It's like, yeah yeah I'm part of that whole willy mammoth thing and that whole direwolf thing you're like holy shit that's awesome you
know like tell me more is I can't tell you anything I mean you had mentioned
we were talking about security and a little bit of prepping and all that kind
of stuff as well and you mentioned that you could modify what sounded like like
a thorn bush and make a security wall
with thorns that are.
Yeah, you know, like I have a construction company
and we have about 200 people in it.
We do dirt work and concrete work
and I go every year to world of concrete
and all these things.
And if you own a construction company,
at some point you're building walls, you know,
whether they be concrete walls or wood walls, whatever.
And landscaping is a big part of a security element.
And so all the time you can plant things
like the Japanese barberry.
It's a perfect bush for security.
It can grow about six to eight feet high,
just exactly about how high you want it.
And they got these really sharp nasty thorns
and they're about that wide.
So if you create a hedge wall
and then back it with like a concrete wall
or a wood fence or something,
you've already created something that's very hard
for somebody to work their way through.
Well, why don't people do this?
It's horrendously expensive.
It takes a real long time to grow one.
You have to water it and maintain it and all these things.
Well, when you get into business synthetic biology,
you can say, okay, well, I want something
with the properties of a crown of thorn
or a Japanese barberry or whatever the plant is,
but I want it to grow like really fast.
And then you can just 3D print some lattice structure,
you put it in and then just grow out an entire wall.
Well, if it's bioluminescent, it also glows at night too.
So you have your organic lighting
and now you have a denial and all these things.
And then you'd also tune it for the environment.
So you'd like say, well, I don't want the deer to eat it.
So make it bad for them,
but it's fine for humans or something like that.
So you can really get granular
with your design requirements.
And what's cool is then you can even blend it
with your logo or branding.
So you could be like, okay, well,
I want it to match the colors of the brand
of my corporation or organization, you know,
cause I use black and red for input output.
So those are our colors.
So it'd be really cool if we can be like black flowers
or red flowers or things like that.
And it's all there.
And that technology is gonna be available, you know,
horizontally when you look to the 2030s,
especially as AI gets deeper into bioinformatics,
you basically have like a CAD for organisms.
You can sit down and kind of type in all your requirements
and it tells you exactly what you need to do step by step
and you go and design it for the client.
You can do that for bespoke,
large scale commercial landscaping.
And it's cool because then you start blending
the aesthetic with the functional.
You get a lot of wonderful properties
that really help you out,
but then you also get these aesthetic properties
and it creates a uniqueness about what you have. So you don't live in this world of
McMall's and Walmart's and you know ugly landscaping. It's more like European
cities where every place you go has a very unique architectural fingerprint
and it's very distinct and memorable. Man that is fascinating. How long
have you guys been working on that?
Oh, for about two years now.
That's it?
Yeah, that's it.
The first step was just building the science team.
You got to understand, it's like cryptocurrencies.
We've been working on it for a while, but the cryptography has been around since the
70s as an academic discipline, but it's been around for hundreds of years as an endeavor
that people do.
And Caesar encoded things. It's called the Caesar cipher,
it's a substitution cipher.
So these ideas are there,
it's just you have to wait a little bit for the science
to mature to a point where you can commercialize the science.
So quantum computing, for example,
there's all these different,
incredibly difficult things that have to happen,
but once they come together,
then you can build a quantum computer.
So now that most of those things have happened,
we're starting to get to the possibility
of a quantum computer.
It's very much the same when you look at synthetic biology.
George Church and other people had to spend decades
of their lives writing papers and books and articles
and training people and conducting experiments
and figuring out basically how to do all this stuff.
And now that they have all these things figured out, you're in a position where you actually
can now commercialize the technology and roll it out.
Multitouch and phones, they had these ideas in the 80s for multitouch, but it took two
decades of fundamental R&D and material sciences to get to a point where Steve Jobs could pretend
he invented it, you know, and be able to say, hey, here's the iPhone, and now we can do the pinch
and all the other things.
So that's the cool part.
You know, good technologists, they always have one foot
in the research side, and they are very connected
to the labs and the universities,
and they see what's on the horizon,
and they have one foot in the, right on the bleeding edge of commercialization.
And if you bet too early, you don't really get a good experience out of it.
And then the imitators come in and kill you.
If you bet too late, you're the idiot.
There's always the three I's in business.
There's the innovators, the imitators and the idiots.
And they're very close together.
So you're MySpace, you come out, you're the innovator,
but you take a lot of arrows and you make a lot of mistakes
and then the imitator comes in, the Facebook,
and they take your lunch and eat everything.
And then people came after Facebook, they were the idiots.
They weren't able to build, like, was it Google Plus
or Google Circles or whatever it was?
They felt miserable, even though they had the network
effect of Google and these types of things.
So it's very much the same when you look at
emerging technologies.
And like, where are we at?
Are we the innovator?
Not really, there's other people that do synthetic biology,
but we're just leaving that phase
and now we're in that second generation.
And we think that there's a lot of there there.
And if we're successful, there'll be tons of idiots
that come in and they try to do things,
but we already have all the right business model.
And that's what keeps it fun.
Steve Jobs did this with AI.
There was a DARPA program called KALO in 2003 to 2008,
it was Cognitive Assistant that Learns and Organizes.
And he literally got weekly reports
on the things that were happening there.
Cause the guys who were running it
were the guys who ended up creating Siri.
So they were basically like talking about this idea of like an intelligent agent.
This is in 2003.
DARPA is always ahead of the game.
It was like this intelligent agent that would basically know everything about you and be
your companion.
You talk to it.
It's like a personal assistant that say, hey, read all my emails.
Which ones should I review?
Which ones should I delete?
I'll do this.
Well, obviously it was fantasy.
They didn't have the technology there,
but the guys learned an enormous stuff
and they spent hundreds of millions of taxpayer dollars
to de-risk all this technology.
So the minute that they finished,
they went and created a small company called Siri,
and then Steve instantly bought them
and brought them into the guts of Apple.
So he was watching that,
and he knew roughly when to invest
to bring an intelligent agent in.
And every great entrepreneur has developed that sense.
The same for when you look at Larry Page at Google or you look at Sasha Nadella at Microsoft
today, and he just knows when to cut it, when to invest in it.
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Wow.
When do you think that,
when do you think that the, what's the name of the plant company? I'm not going to say it yet.
When do you think that will come out?
We'll probably have some by the end of the year.
Who knows?
I've already probably said too much.
I'm going to get an angry phone call.
It's like Inglorious Bastards.
They're going to chew me out.
We'll move on.
I do have a random question.
You brought up quantum computing and I wanted to get to this in a little bit,
but we'll do it now since you brought it up.
I mean, does, does this quantum computing, would that
make cryptocurrency irrelevant?
No, no.
So basically how a quantum computer works is, um, it's an augmentation of classical computing,
not a replacement of it. So the way I like to explain a quantum computer is imagine that you
meet a really hot girl and she wants to give you her number, but she's kind of a bitch. So she's
like, all right, I wrote my number in this library over there inside one of the books. You walk in
the library, there's millions of books. You know, I, fuck you. So she's legit, she wrote her number in there,
but like, how do you find the number?
So a classical computer, how that would work
is that you would just start at one of the bookshelves,
you take each book off, and you flip through all the pages
and see if you find the number.
Now, if you wanna speed it up,
there's two ways you can speed it up.
You can speed it up sequentially,
meaning that you speed up the rate
at which you flip through the books,
or in parallel, and in parallel,
you get your friends to go and help look through.
So maybe you have five guys come,
so you and five other guys are flipping through books,
now you have six cores running.
And if you want to sequentially,
that's your clock rate, you speed it up.
So for a long, long time, since the 30s,
when we first started talking about these things to today,
that's been the paradigm of computing,
is either speed up the clock rate
or make it more parallel and find algorithms that can do that.
Quantum computing is fundamentally different.
What it does is it says,
okay, here's what we're gonna do.
We have three things.
We're gonna do superposition.
So we're instead of looking through the books,
we're gonna have this magical way
of taking all the books off the shelves
and put them in a superposition state.
And then we have interference and entanglement.
And these properties allow us to relatively speaking,
know the location, the rough location
of where that book is.
Then we'll put them all back on the shelves,
but the area that has the number,
we're gonna pull those books out slightly.
So you still have to do the classical thing.
You still have to go and open the book
and read through the pages.
But now instead of blindly going through
and looking at all the different possibilities,
you know the rough area that you want to go to.
So you go over there and you pull that book off
and lo and behold, the number's there.
Get laid. Congratulations. Life is good.
You know, so that's quantum computing in a nutshell.
And if you look at a lot of things that we do,
you are trying in computing to stumble upon the right answer.
Like flight scheduling.
You're just like, well, how do I figure out this flight
so that I can have a layover of this property in Atlanta
and this, this and this,
but there's all these other things going on.
And it turns out it's like an NP problem.
It's super hard to actually schedule a flight.
But if you have a quantum computer,
you can kind of look at all the art of the possible
and at least give you a sense of where
a probabilistic minimum is.
So the minimized, the layover time
or whatever your objective is.
Or in the case of large language models
like chat GPT or any of these AI things,
what you'll do is you'll say,
okay, well, there's outputs that come out of these models.
Well, which one of the outputs is the right output?
You'll ask it a question.
You'll be like, you know, I need to know,
I'm gonna be in DC for the weekend
and here are all my parameters
and I'm looking for a good restaurant
and which one's a good one?
And so they'll have maybe 50 recommendations
that come through. And some are obviously wrong, like one's in Virginia or one's a good one? And so they'll have maybe 50 recommendations that come through.
And some are obviously wrong,
like one's in Virginia or one's in Maryland or something.
And one's really in DC,
but it's too expensive or something like that.
So ordinarily what you'd have to do
is you'd have to create some sort of system
that's intelligent to look through
all those different things.
And a human being has to write that, a programmer,
or you personally have to look at the outputs
and say, oh, that's wrong, that's wrong.
Well, the quantum computer, you basically get to look at all the outputs say, oh, that's wrong, that's wrong. Well, the quantum computer,
you basically get to look at all the outputs,
just like all the books at the same time.
And then it can show you
which one of those answers is right.
Remember, it could be millions of them,
it's the qubit range.
And so, you know, once you start getting up in qubits,
you can do this arbitrarily many.
And so what this does is it gives you the ability
to have a large language model that's exponentially better
than a large language model that we have today.
And it gets really crazy when you start stacking modalities.
Like Microsoft has a technology called Matternet,
and it's a simulation framework.
It's almost like reality builder,
where you just tell it what properties you want.
Like I want a battery, and I want these properties,
and it basically gives you a recipe
for how to make that molecularly.
But the problem is that the simulation breaks down
after you start modeling maybe 20, 30 electrons.
So with a quantum computer, it doesn't have that limitation.
You can look at many, many, many different bonding paths
and things so it literally can print out
how to make that material that's magical.
And so you could start talking about like,
let's say I want a Black Hawk helicopter
and I want the skin to have what's called
a negative refractory index material
so it can go invisible.
And I want it to be light but super strong
and I want it to be self-healing.
So if I run an electrical current,
the stress fractures heal themselves
so I don't have to replace the airframe.
And then also I want it to be non-Newtonian
so that it's soft but when it gets hit by a bullet,
it gets super hard like a football helmet
or something like that.
And it'll tell you literally the recipe
for how to make that strange exotic alloy,
you know, with all these different properties.
You can't do that with a classical computer
because there's too many possibilities
and it's like a library with more books
than the time of the universe to look at,
but with a quantum computer,
you can look at all of them at the same time.
So it'll tell you the path to get to that
and this specific recipe.
Because right now how we figured out
is just math and trial and error.
You go to a lab and you kind of do some stuff
and you think, I think it's over here.
And then you do a bunch of experiments
until you stumble across the material.
And everything works this way.
Like this microphone, what would give it the best sound?
Or like a battery, you know,
I want it to have a high energy density
and I want it to be very light
and I want it to charge really fast
and I want it to be recyclable
and be made out of non rare earth materials
because China owns all those and they're screwing us.
Like I want to be able to make it domestically in America.
That's a very rare intersection point of trade-offs.
And so what material would you need to be able to do something like that?
So when you blend these two things together, it's just going to create a golden age.
We're going to be able to do things that are incredible.
How close are we to that, do you think?
Well, yeah, and sorry I was on a tangent there, but you asked a specific question like will
that kill the cryptocurrency industry? So in addition to these magical things
that quantum computers can do,
the defense issue is that most of the cryptography,
public key cryptography that we use has two parts to it,
a public part and a private part.
And the public part you give it to everybody.
And the private part you have.
So in cryptocurrencies, you have private key
and a public key. Public key is where I pay you, and the private part you have. So in cryptocurrencies, you have private key and a public key. Public key is where I pay you and the private keys, you know, what I
use to authorize a payment.
So the challenge is that all the math that's behind it in the classical sense,
it only works as long as you don't have a quantum computer.
If you have a quantum computer, you have things like Rover's algorithm and Shor's
algorithm and these things, and these gig Giga brains at MIT were basically able to show how to use this librarian book trick to find your private key inside
the system.
Because you can't find it normally.
It'd be like looking for that phone number and going through book after book after book.
So the question is, are we done?
No, because it turns out that there's algorithms that are not susceptible to this.
They're called post-quantum cryptography. So the challenge in why the cryptocurrency industry has not adopted them
is kind of twofold. One is that they're new and highly inefficient. So in many cases,
to use a post-quantum algorithm, the key sizes are 10 to 100 times greater, and it's much more
computationally intensive. And also because they're new,
they have not been mathematically rigorously tested
as well as they need to be.
RSA, which is the backbone of the security of the internet,
was invented in the 70s, and we still use it today.
So there's like 50 years of acid tests
and hardcore analysis that's been done.
Elliptic Curb cryptography came out in the 80s
by a friend of mine, Neil Koblitz,
and he wrote this lovely paper called The Serpentine Path of Elliptic Cur cryptography came out in the 80s by a friend of mine, Neil Koblitz, and he wrote this lovely paper called
The Serpentine Path of Elliptic Curb Crypto,
where even though he invented it in the 80s,
it didn't take off into the 2000s,
because it took him more than 15 years
to convince people that it was secure,
and he had to do all this work and all this lobbying
and these types of things.
So cryptography, they tend to be professionally paranoid
by design, and so they very, very slowly roll out these things.
And the other side is standardization.
So even if you have a brilliant idea,
you never wanna implement a non-standard piece
of cryptography because you'll get screwed
by the hardware manufacturers.
So when you look at your phone or your computer,
the chips inside of them actually have specialized circuitry
for crypto that the Department of Commerce
through NIST standardizes.
So AES and RSA and certain elliptic curves
and these things, there's actual acceleration
and then hardware will run a hundred times faster.
So if you pick a non-standard thing
and you're just running on software,
you're a hundred times slower than your competition
that picks a standard thing.
So you have to wait for NIST to standardize something.
And the good news is they did.
We worked with them alongside dozens
of other cryptographic groups,
because we have one of the largest research groups
for cryptography.
We have 168 scientists we work with
in the labs at Stanford and CMU
and University of Edinburgh and so forth.
And they wrote FIPS 203, 204, 205, and 206,
which are standards for post-quantum crypto,
both on the hash and lattice side.
And now that we have them, the hardware manufacturers are going to create specialized circuits for
those to accelerate them.
And now that they're there, we can upgrade crypto to have those capabilities.
And what's really exciting is in many cases, these are going to actually add not just security,
but in many cases, acceleration.
Because in particular, the lattice stuff can be accelerated on graphics cards
So everything that people are doing for AI to make AI faster can be used to make crypto faster
So it's gonna be a golden age actually will be able to take a lot of these sequential algorithms and make them very parallel in
The design but cryptography is always a game of cat and mouse if you ever go to England
You can go to Bletchley Park and it's a lovely tour
it's a it's where the first computer was built, the bomb,
by Alan Turing.
And the Nazis, they had this thing called
the Enigma machine and it was basically this little
black box with a keypad on it and they'd put a wheel in it
and they'd have a setting for the day and they could use it
to encrypt messages and then they would transmit it
and then somebody would have that setting
and Enigma machine on the other side
and then they would decrypt that message.
Well, what the allies did is they figured out
how to use computers to basically break those codes.
And so if you go to Bletchley Park,
you can actually see a reconstructed bomb,
and they tell you the story of how Alan Turing
and these other guys figured it out.
Well, now that they had computers,
people use computers to make better cryptography. And then people used computers to make better cryptography.
And then they used computers to break that cryptography.
And so it's always 10, 20 years, there's like a thing and then the next thing, and
then a thing and then the next thing.
And it's just like warfare in general.
If you invent a plane, well, somebody creates a countermeasure to the plane, and then they
create a plane that avoids that countermeasure.
And you never stop, you just keep getting more advanced with it.
How far out do you think we are from this?
Well the problem with quantum computing is the paradigm is not set.
There are many different approaches you can take to build a quantum computer, you know,
it's ion trap and quantum,
topological quantum computers, that's Majirana,
what Microsoft did, which is so fucking crazy.
My favorite is optical quantum computers,
Xanadu and these other guys work on it.
So there's a lot of great companies,
but they're fundamentally different.
Like some use the photon as their unit of computation,
some use the electron, and you know,
some use subatomic particles called Majirana fermions.
All these different things, somebody's going to crack it and the hard part is not the compute
side, it's the error correction.
The problem with quantum computing is that state of superposition and entanglement is
extremely delicate and so delicate that any perturbation of it can create a cascading
failure in the compute.
So most of these things have to run close to absolute zero.
You have to cool them super, super, super cool.
And then you have to keep all the ambient environment
as free of interference as possible.
And then even still the computation falls apart.
So the biggest challenge in quantum computing
is not scale, like getting more qubits,
more compute rock power, it's error correction. So how do you avoid errors from
exponentially increasing and destroying the calculation and basically
disentangling. So that's been the big focus and whether it be Google with
Willow or what Microsoft just announced with Majorana, we're seeing very
systematic progress in every respect.
There's a big national security issue though, because while we can change cryptography,
we and our adversaries do archive all the data.
So Bluffdale, Utah, the NSA has this gigantic facility, and it's like Yodabytes of storage,
and they just basically packet replicate the internet, and they take all the encrypted
traffic from China and Russia and other places and they just store it there.
Because if you develop quantum computer because that was encrypted with classical compute,
you can decrypt it.
So security is also how long do you need to keep the secret for?
So battle plans in World War II are probably great for historians, but they have no national
security implication because it's so long ago.
But from something in GWOT,
it's still probably relevant today
because that's probably still being used today
in the battlefield and those systems are still around.
So cryptography has to last a shelf life
beyond just being broken today.
It has to be maybe 30 years or 40 years
and then it's no longer relevant.
So the United States is getting more paranoid about this,
which is why NIST has done this,
and the Suite A and Suite B protocol suites
for both NSA and then the open one,
the Department of Commerce, are now recommending post-quantum.
So there's already a transition
that's occurring to post-quantum,
and we're seeing post-quantum algorithms
in the commercial side
with like WireGuard getting post-quantum support.
So if I had to guess, I'd say probably the 2030s
is when we'll start seeing quantum-like devices
work their way into compute.
And by the 2040s, I think there's a very strong possibility
that we'll crack it.
Now, this is a controversial viewpoint.
There are some people who think
quantum computers are still impossible
and they can't work for a variety of deep theoretical reasons.
And there's other people think they will crack it,
but it's like 2050 or 2060 or 2070.
But it's the same in AI.
You know, you talk to AI researchers and some are like,
oh, well, 2027 and you know, we'll have AGI
and the computers will kill us all and terminators forever.
And there's other people like Ian LeCun are like,
oh, the fundamental model is wrong.
We need a world model.
We're still a long way off from that.
So maybe the 2030s or 2040s.
And there's other people that say it's never gonna happen.
Like, you know, Ferriccio Fagan
or any of these other guys who invented the microprocessor.
Cause he says cognition is fundamentally different
than how we do von Neumann architecture computing.
So it's just, it lives in a different world.
So any expert, you'll always find like 45 opinions
on these things.
But I always look as an entrepreneur at who's investing,
how much money are they putting in,
how many alternative approaches are we following
and ultimately what's the payoff of success.
If your payoff of success is you have like a reality machine
with Matternet where you can just enter in what you want and it produces that thing, well yeah, a lot
of people are going to chase that. As much as same with AI, you know, you can say, well,
we need to slow down for alignment, but you're like, guys, the first person to solve this
problem is probably going to be a trillionaire. You're going to get every company in the world
chasing that and investing in that. And if even if one of them voluntarily steps off
the thing, there's too much competition.
There's an inevitability behind it.
Just like the Manhattan Project, they actually had not one,
but two different designs for the nuclear bomb.
You know, the little boy and fat man
or whatever they were.
And one was an implosion sphere,
another was like a gun where it shoots something and hit.
And they did this to de-risk the program
because they didn't know which one was going to work.
And it turned out both of them did.
So the one in Nagasaki was the implosion device
and the other was Hiroshima.
But when you really want something to happen,
you'll just throw lots of money, lots of people
and you have lots of approaches.
So quantum computing is exactly the same way.
There's a dozen or so different paradigms
that you can follow and there's many billions of dollars
and many, many companies that are chasing this thing.
So the odds of at least one of them turning out
to actually work the way we think it's gonna work
is pretty high and the payoff is so large
that people will continue to do this until they crack it.
Do you think the US will be the first ones to crack it?
We have a huge advantage in that we have a lot of the brains
and people and even if we don't, we tend to buy them
and bring them into the United States.
Like Xanadu, for example, is the world leader
in photonic quantum computing, and they're based in Canada,
but if they actually solve this problem,
they're probably gonna end up as an American company.
Somebody's gonna give them an offer they can't refuse.
The other thing is that all the technologies
that go into quantum computing,
they're mostly areas where America excels.
We're like super good at the science stuff,
cooling things and super good at the very subtle
environments that quantum computers require.
So we have a lead and it's a very strong lead,
but by no means is China sitting back
and by no means are the Europeans sitting back.
Everybody's chasing this in their own way
and a lead means you have maybe six months to two years,
but look at the iPhone, it comes out,
it's magical and amazing,
but does it really feel magical and amazing anymore?
Especially when you compare it
to all the other competitors who are there,
it's unbelievable how fast that that happened.
And this is something where the payoff is exponentially higher.
Well, makes me a little more comfortable knowing that we're in the lead.
We don't get a lot of good news here, but-
I love America. Our national slogan is we know we're working on it.
But let's get into your personal story here. Where did you grow up?
I grew up in Hawaii, of all places. It's an odd place to be. But, so let's get into your personal story here. Where did you grow up?
I grew up in Hawaii, of all places.
Like it's an odd place to be.
So my dad grew up Montana and my mom grew up in Florida.
She was in Winter Haven and my dad was out in Mile City
and Big Timber.
And my dad's father, my grandfather, he became a doctor
and he was kind of an outdoor guy
and he just loved the outdoors, but he hated the cold.
And so when he was in residency, they said,
hey, would you like to do a residency down in Panama?
And so he said, oh, that sounds a lot of fun.
So he went down for a few years to the Panama Canal Zone
and did a OBGYN residency down there
and delivered tons of kids.
But he got addicted to the tropical living.
And so when he went back to Montana,
he's like, God, this cold thing sucks.
I don't want to do this anymore.
So he's like, you know what I'm going to do is I'm going to
buy a practice in Hawaii.
That's what I'm going to do.
So in the seventies, a practice came up for sale and
he picked it up, moved to Maui.
And my dad ended up going to high school in Maui and we
have very strong roots then in Hawaii.
So my father then went to college in Montana and then went back to Hawaii for medical school
at University of Hawaii.
So when he went to residency, he was in residency in Colorado and St. Joe's and that's where
he met my mom.
She was a respiratory therapist.
So he, when he finished residency, decided to go start a private practice in Hawaii.
So my brother was born in Colorado, but then I ended up being born in Maui.
My grandfather ironically delivered me.
No kidding.
I know, awkward bedfellows.
But anyway, yeah, I grew up there until I was about eight years old and then my mother
got tired of living in Hawaii and she told my dad, I'm gonna move
back to Colorado and you can stay in Hawaii and be a single doctor or you can move to
Colorado and be a married doctor.
So you know, you take your choice.
My dad said, I like being married.
So I said, go move to Colorado.
And my mom's whole family's in Colorado.
My mother's father was in the cable business and he kind of followed the evolution of the
cable business from the 50s.
He was a Marine and fought in the Korean War.
So he signed up in 48 and got out in 52.
And when he got out, he got a job as a lineman.
And right around that time period,
the cable business was getting started.
So he just kept going from place to place
as they were laying cable.
And Colorado became kind of like the nexus
that linked the United States together.
So in the 70s, all the cable guys started coming out this way.
And so my grandfather lived in Denver.
So my mother grew up in all those different places, but then kind of settled in Colorado.
And that's where she met my dad.
So anyway, they moved out to Hawaii.
And then I moved back from Hawaii to Colorado.
And then I grew up in Colorado.
And then I became kind of a nomad and traveled the world. What kind of stuff were you into as a kid?
What did you like doing? Well I was really isolated as a kid. You know the problem with
Hawaii is that especially at the time and place I grew up in Hawaii it's not
easy to be a non-tourist white guy in Hawaii. You know they call you Howlies
and you know and it is in and so my parents didn't want me
to attend public education, so I ended up being homeschooled,
which was like a double-edged sword.
It was great because I could graduate high school
much faster and, you know, I was a voracious reader
and I loved knowledge and these things, but also it meant
I was a little like half-baked on the socialization side.
You know, it's just my brother and I, and that's it.
And so we didn't really socialize with very many people.
But what was nice is then, instead of doing
the school stuff where you'd go through
traditional K through 12, we did the nature stuff.
So an enormous amount of my time was going to the beach
and going to the jungles and the valley
and all these other places on Maui
and seeing the sea life and so forth.
And it developed a strong love of the natural world.
And that's why a plant company now, right?
Or a ranch.
I loved animals and I love plants
and I love that whole experience of seeing things.
The other thing is it gave me
a slightly different age demographic,
because I didn't get exposed to the K through 12 stuff.
I kind of skipped the late 80s and 90s,
and I inherited my mom and dad's generation.
So the early 80s, the 70s, and the late 60s.
And so I listened to Boston, and I listened to Journey,
and I listened to all these things like Bread,
and what was his name?
Did Operator, and Time in in a bottle, Jim Croce,
you know, all these guys and all the television
was from that time too, you know,
so I watched Lost in Space and you know,
I watched Gunsmoke and all these shows
and so I'm always like one generation behind
actually my cohort, so you know,
it's easier in some cases for me to talk to people
in their 40s and 50s than it is to talk to people
in their early 30s and 20s,
because I have that cultural frame of reference,
which is quite strange.
The other nice thing about Hawaii is it's like frozen in time.
You know, outside of the fire in Lahaina,
nothing changes at all, ever.
So you go there, and it's like the same store
that I went to when I was eight years old is still there.
And it's probably the same guy working at the same store.
He's just a lot fatter and older.
He's got the man boobs now and the comb over, but he's still going to the beach like three
times a week.
Right.
And you talk to this guy and you say like, God, like, do you have any ambition in life?
Do you want to do more?
No, no, no.
I am content.
And that's the problem with Island Fever.
That's why my mom got tired of it.
She's like, you know, it's like, it's a paradise for a year.
You get island fever within three years.
If you have any ambition at all, there's no progress,
there's no growth, you're just static.
You stay stuck in time.
And then the tourism thing too is like,
you live in a place where the population literally doubles or triples every year
And so you go boom bust boom bust so during tourist season
Traffic jams everywhere all these tourists running around causing chicanery and havoc and then off season like everything's nice
So that gets old after a while, you know and and and tough after a while
So, you know, I didn't want to leave.
I was eight years old.
I liked Hawaii.
I'd walk around with, like, no shoes on
or the flip-flops and these things.
Had the long blonde hair that turned black over time.
It was great.
But then as I got older, I realized
it was a really good decision to kind of go to Colorado.
What do you mean you started traveling the world?
Well, you know, after, so, you know,
kind of following into Colorado, you know,
I was homeschooled and I graduated from high school at 15.
And then I started at a community college
because my parents said,
yeah, it's probably too much to go to a four-year university.
Like, you never went to high school,
you're homeschooled your whole life.
So I did front range and that was kind of my high school.
So, you know, between 15 and and 18 I was there and I graduated.
So I was like 18 with a college degree, which was cool.
And I transferred then to Metro, Pauline State,
and then I transferred to CU Boulder.
And originally I wanted to be a doctor,
because my dad's a doctor,
my brother ended up as a doctor,
my grandfather was a doctor, my uncle's a doctor.
There's a lot of doctors in the family.
I said, oh, I'm gonna be a surgeon.
This is gonna be great.
And I was very precocious and arrogant as hell.
And I thought I knew everything.
And I was the center of the universe
and all these things, God help me.
And the problem is I was pretty charismatic
and pretty smart so I could get away with it
for these things.
So I did the medicine thing for a little while
and took EMT training and became a certified pharmacy tech
and took all the biology and all the chemistry classes
you're supposed to do and it was never a challenge.
But then I started learning the dark side of medicine
as I kind of went through that.
So you have this like view of medicine from ER and house
or from watching my dad practice where you're like,
you help people, you take care of people.
But if you talk to any doctor,
the vast majority of their time is not helping people
and curing people and solving diseases or things.
It's either managing chronic ailments or paperwork.
You know, and it's gotten so bad in primary care,
you might see 20 to 30 patients per day
and have less than 15 minutes of actual time
with each person.
And then after you see the person, lots of paperwork.
And the ICD-10 coding, right?
You have to put all your codes in and they gotta bill
and they gotta chase your RVUs and all this other stuff.
So as I started volunteering in hospital
to actually working in that infrastructure
and talking to the physicians, every physician that I met
said, you're too smart for medicine, don't go into it.
Don't go into it.
They were burnt out and they said,
and it's a bad thing when the people who are good at the field are telling you, don't go into it, don't go into it. They were burnt out and they said, and it's a bad thing when the people
who are good at the field are telling you
don't go into the field, it's not your way.
So the other thing I was really good at was mathematics
and I really loved mathematics.
Math is, it's an infinite well.
No matter how brilliant you are,
you reach a stopping point that you can't go any deeper,
but yet
the ocean is deeper.
So I loved that about the field.
It was like a personal challenge, like I solve something and then I get the next thing and
I solve that thing and then I get to the next thing.
And even math itself is like unsolvable.
There's like these boundaries, like Gertels and completeness theorem or other things that
they say like you can't win, the game is unwinnable.
So I love studying mathematics and I got quite good at it and that's actually why I
transferred from Metro to CU Boulder because they had this nice combined master's undergraduate
program so you could take graduate classes and undergraduate classes. I just took a ton of math
classes and I went through and it's a research university so I interact with like true mathematicians
and then what I discovered was like it was such a dreary field to actually be a professional in
because while it was super intellectually interesting
to get tenure and to actually climb that chain,
you had to do a ton of really boring stuff
and highly political stuff.
And then in your 40s or 50s, you get to the other side
and then you just do what the fuck you wanna do.
But then you make no money,
no one cares about what you do,
no one understands what you do,
and you end up becoming like turbo autistic.
You're just in your office looking at a whiteboard,
it's like, why doesn't this work?
And then you discover something like,
oh man, I just discovered this new thing about co-bordisms.
Like, oh, okay, that's cool.
So I got really lost in that, but I was fortuitous that there were a lot
of good cryptographers there,
and there were a lot of good computer scientists there.
So as I was studying math,
I was also inadvertently learning all these really cool
things about all the underpings,
which became cryptocurrencies.
Like if you're a mathematician, you study cryptography,
it's quite easy then to understand like,
how does a cryptocurrency work under the hood?
You know how a public key system works.
It's like, oh, it's RSA, or it's Euler-Totient,
and this thing, oh, okay, I get that.
Or the discrete logarithm problem,
oh yeah, I understand that, I understand how that works.
That's great.
You can read the papers.
And so coming from that side, it was,
I didn't know at the time,
but it was one of the most valuable things for me.
But I just got so tired of it. I said, I'm wasting time, and I was one of the most valuable things for me. But I just got so tired of it.
I said, I'm wasting time and I don't really have a path to a career.
So I dropped out and then I took some time off to just kind of go and travel and meet
people and see the world a little bit.
And I did that and that was fun, you know, and I got to see a lot of different things.
And I also did some political stuff.
I worked on the Ron Paul campaign.
I saw that.
Yeah, that was a lot of fun.
How old were you when you did that?
Well, I was 21 when the Ron Paul campaign was first,
and because he did twice, it was 2007 and 2012.
And then also there was the intermediate campaign,
which was Rand Paul in 2010.
So everybody contributed their own way.
And again, you don't know at the time
that you're gonna learn a skill
and then that skill becomes valuable. But on the Ron Paul, we learned about like online fundraising.
We kind of invented it. We had the money bombs. You know, Howard Dean was very successful
in 2004 with online fundraising and Obama was pretty good too. But on the Republican
side, nobody had really cracked that nut and we were the first to do that. And the whole
Republican party is like, oh my God, you just like do a money bomb and one day you get $5 million or $10 million. Like, how do you do this? And you get calls from
the national guys and it'd be like, can you teach us your secrets? We're like, yeah, okay, it's real
simple. You have to vote the same way for 30 years. You have to have message discipline for 30 years
and you have to have integrity. They're like, ah, yeah, can-
They're like, what's integrity?
Yeah, I know.
Can we do it without those things?
We're like, no, no, it doesn't work that way.
That's why people give money that way.
But distributed fundraising is like the ICO
in the cryptocurrency space.
Now, of course, we didn't know that at the time.
We invented that later on in the industry, but that was a great thing. Also that message discipline, people Now, of course, we didn't know that at the time. We invented that later on in the industry,
but that was a great thing.
Also that message discipline, people like rules of three,
like Ron Paul, he said, you know,
three things and three things only, like choose liberty.
So the follow the constitution.
If it's in the constitution, we follow it.
If it's not in the constitution, we don't do it.
Pretty simple.
Humble foreign policies.
It's like, we just don't wanna go to war
with all these people.
I remember 2007, he told us were going to lose in Afghanistan.
He said that Afghanistan is going to go back to the Taliban.
He told us that.
He said it in his speeches, he'd say it privately, he'd say like, you know, it's going to be
just like Vietnam, you know.
He was right.
And then he said sound money.
You know, if you don't have good money, you don't have liberty.
Because all the things you do,
all the things you're promised disappear.
Imagine working hard your whole life, 40 years,
you save up, you have a good retirement ready to go,
and then inflation eats away at all that stuff,
and within 10, 15 years, all your savings are gone.
You have no choice but to become a socialist
and become a ward of the state.
Because your money's gone now,
they destroyed the quality of the money because your money's gone now.
They destroyed the quality of the money.
So you have to go to the government and say, please give me some bread because you're like
70.
You can't work.
You don't have the training or the economic output or anything like that.
So you have bad money, you have socialism.
You have bad money, you have a destroyed society.
You have sound money, you have agency, you have control over your life, these types of
things.
And the other cool thing is that it could expose me
to all these economics that,
I took economics, macro and micro economics,
and I think Paul Krugman, for God's sakes,
wrote the book in macro economics that I took,
and it was all like Kinsey and shit.
And so I said, oh, that's economics.
But then I joined the Ron Paul movement,
and they're like Ludwig von Mises in Austrian economics
and all these things.
They're like, oh. This is this is amazing
There's like a completely parallel economic school of thought that's totally different than what the mainstream has like the Austrian economists
We're saying deflationary money is the money you want when you do Kinsey in economics
You're like it has to be inflationary if it's deflationary you have the deflationary spiral the whole economy will fall apart and die
Well, what's Bitcoin? It's a deflationary, you have the deflationary spiral. The whole economy will fall apart and die. Well, what's Bitcoin?
It's a deflationary monetary policy.
So all the classical trained economists,
when they looked at Bitcoin when it first came out,
they said it's not possible for it to succeed.
It'll die.
It's just gonna be a deflationary spiral.
There's no way for this to work.
But if you're an Austrian economist,
you say, well, that's the natural way of money.
So this will organically get more valuable over time
So, you know 2007 Bitcoin wasn't even out it is so I'm reading these books and these papers and everything and it was
Preparing me for that cryptocurrency career, you know is preparing me to kind of like when I read the white paper from Satoshi It was like this makes sense. Yeah. Yeah, of course this system is gonna work. It's like gravity
It's just going to happen, you know, and the other thing was this power
of decentralized networking.
You know, the Rompel movement was like a terrorist cell.
You know, they had people everywhere, you know,
and you didn't know where they're at,
and they're like a secret club.
And you know, we were so adept at rapidly coming together
and talking to each other and figuring things out.
So it scaled from just a few hundred volunteers
to a nationwide tea Party movement very quickly.
But how quickly a movement can be co-opted.
When we were doing it the wrong poll days in 2007, there was just as many Democrats
as there were Republicans.
It was such weird bedfellows.
You'd have the blue-haired gal with the tongue ring who's kind of out there, hanging out
with a 55-year-old guy who buys golden guns.
And they're in the same rally and we're like, I don't know how this works.
But then a few years later, because Paul's not a very good organizer, the movement got
co-opted and suddenly Breitbart came in and all these other guys came in and it stopped
being like a unifying thing with those three core things of choose liberty,
sound money and humble foreign policy.
Because remember the blue hair girls
were against the Iraq war, you know,
and also sound money, like who could be against that?
And choose liberty is like,
well that's liberty for everybody,
not just you or me, but for everybody.
And it became like, we're now anti-abortion
and now we're anti-gay and we're this and this and this.
And the Tea Party went in very strange directions and we lost that political momentum and that we're anti-gay and we're this and this and this and the Tea Party went very strange directions and we lost that
political momentum in that political movement.
So it was fortuitous because a lot of the people that were still true core libertarians
who had been indoctrinated into digital money and were quite went to a sound money who were quite young
when the cryptocurrency movement came around they're like, oh, that's our home.
Because blockchains are like a constitution at their core.
When you look at a blockchain,
what's written in it can't be violated.
If it says this is the monetary policy,
that's the monetary policy.
If this is your right as a user of the system,
the operator of the system or some power
like the United States or China can't come in and change it
because reasons, it is what it is.
So if you believe in sound money,
so deflationary monetary policy,
and you believe in choose liberty,
meaning follow the constitution,
it's directly compatible with the blockchain.
And the other thing is that it's non-aggression principle,
non-violence, this humble foreign policy,
everybody in the world is treated equally.
So it doesn't matter what language you speak,
it doesn't matter where you're born, it doesn't matter where you're born,
it doesn't matter where you come from,
you have the same rights as the founders of the system.
You know, and that's just not the case in the legacy world.
If you're Bill Gates or me and you use a bank,
they kiss your ass, you know, your private client,
they'll do anything.
You have numbers you can call and just say,
I need this and this.
Oh, of course, you know, we'll drop off a pallet of cash in front of your house. They'll do anything. You have numbers you can call and just say, I need this and this. Oh, of course, you know We'll drop off a pallet of cash in front of your house
They'll do that. You can't do that as a poor farmer in Senegal or things like that
You might you don't even have a bank account
But in a cryptocurrency my use is identical to that farmer in Senegal's use
so it was in many ways a spiritual successor to the concepts of that Liberty movement and
is a spiritual successor to the concepts of that liberty movement and people wanting to have something that was
divorced from the corruption and the nepotism and and had some principles behind it that were almost like the laws of physics They're immutable. They're they're invariable. You can't change them
That's you know, that's kind of why I was why I was asking if you think crypto will overtake the
the system.
So many people are drawn to it because of government oversight and regulation and all
of these different things.
And then there's all the skeptics that say it's not real. You know, and so that can you, can you
elaborate a little bit on, on how it works
and will we see the volatility stop?
So, you know, first off, all social
systems are imaginary, you know, every
economic, political or social system,
they're not real.
Like where, where do you go to find the
dollar?
It's like, I can print a dollar and I can hand you a dollar,
but that's like a certificate that says
this represents this concept of a dollar.
Or like where does your vote live?
You can vote, but I guess you have a ballot,
but the concept of voting,
the concept of democratic legitimacy.
Stanford corporations, like where does Microsoft live exactly?
Where does Google live?
It's like, well, there's a registration,
there's shareholders, but it's this abstraction
in the internet.
So crypto is just an abstraction.
It's a set of consensus rules,
and it uses a blend of social processes and mathematics
and distributed computing and cryptography
to basically create something that then acts as this trust layer.
It has three core properties.
It's immutable, it's time stamped, and it's irreversible.
Everything you put in, you can't change it.
You know when you put it in and everybody can see it.
It's auditable.
And it doesn't seem like that's valuable,
but actually it turns out it's one of the most valuable
things in the world. Trust is one of the most valuable things in the world.
Trust is one of the most valuable things in the world,
and you know it when you're missing it.
And the example I like giving people is,
let's say you're a rancher and you want to buy
some of your neighbor's land.
There's two ways that can go down.
One way you're great friends with that neighbor,
you're drinking buddies with them.
So you go out there and you say,
hey Bill, that 50 acres over there,
I want my cattle to graze
on that place, I'd like to buy it from you.
And Bill's like, well, you know, Charles, great,
what price?
And you have to haggle over drinks
and you come to a term, you shake hands.
Now, let's say that you discover a problem
with the transaction, a month into it.
You go back to him and say, hey, Bill,
we got this problem and it's an issue.
Can we solve it?
You drink it out, you haggle it out, shake hands.
Deal closes, you get the land.
The other way it can go down, let's say you hate your
neighbor, you don't trust each other,
but you really need the land.
So you go to the neighbor and you say,
I wanna buy your land.
He says, well, all right, talk to my lawyer.
So your lawyer is talking to his lawyer.
Complex negotiation.
That issue comes up.
Now you're in litigation.
You're suing each other.
Two years past, all this money.
You win, got the land.
The outcome is exactly the same in both cases.
A, you get the land, B, you get the land.
What's the difference?
The difference was you solved it over alcohol and handshakes
and hanging out with your buddy
versus you had to litigate
and spend an enormous amount of money.
What was the difference between those two transactions?
One thing, just one thing, trust.
That's it.
In the first scenario, you like and trust each other.
In the second scenario, you don't.
So then everything else, it's like a butterfly effect,
cascades from there.
And at the micro scale, that's it,
but at the macro scale, it's the same but at the macro scale it's the same way.
Russia has every incentive to try to find a way
to work with Europe and the United States
because China's eating them alive.
But you just can't get there with the trust.
So unfortunately, despite the fact
that they have an incentive to try to work with us
to solve a major problem they have with China, they can't.
And corporations, corporations in many cases
have incentives to work together
because maybe for some product you're building,
somebody else has a piece of technology that you need.
Like Apple was a great example with Samsung,
where Samsung makes all these chips.
Apple needed the chips for its iPhone,
but Samsung makes phones too.
So how does Apple figure out how to buy those chips
and work with Samsung, but trust them enough
not to steal the iPhone design to use in the Samsung Galaxy?
So cooperatively, if they can find a way to make that happen,
Samsung makes a fuck ton of money
because they get like 100 million iPhones
worth of memory sales,
but then Apple also gets this state of the art technology
that's better for their consumers.
But if they can't find a way to work together,
that's patent litigation and this and this and this.
So by creating a common space
where business processes and government processes,
any economic, political or social process can live,
and you have trust at the core of it,
then all of a sudden you now have a new place
for people who don't trust each other
to be able to start working together as if they did.
And just that example of the lawsuit thing,
it shows you the economic consequences of it.
Literally, it's creation of tens of trillions,
the hundreds of trillions of dollars of wealth.
You notice that none of this,
did I talk about a token or a particular cryptocurrency
or any of these things.
I'm just talking about the abstraction,
the concept of a blockchain,
this idea of a trust layer for it.
Then there's a question of why do the tokens exist?
Well, that comes into what type of world
do you wanna live in?
Do you want your trust infrastructure
to be owned and controlled
by a federated, unchanging oligarchy,
or do you want it to be decentralized?
If you don't have the token, it's gonna be controlled bychanging oligarchy, or do you want it to be decentralized? If you don't have the token,
it's gonna be controlled by an oligarchy.
It has an operator, it has an owner.
Somebody has to maintain the infrastructure.
People aren't gonna volunteer to go hoist up
trillions of dollars worth of infrastructure.
So if there's no token, there's no instrument to pay
for all of those things to exist, you see?
So once you have the token,
it can pay for its own bills
to create a resource that you can use.
So Bitcoin creates its own token.
Then suddenly we go from me mining on my laptop in 2010
and getting lots of Bitcoins
to gigantic mining fields that the president's son,
Eric Trump has and all these other people have,
billions of dollars worth of miners.
Where was the central Bitcoin Bureau, telling know, telling people to do this?
There was none. It was just a token.
And people, through their own self-interest, independent of any central coordination,
came together and they built out that mesh.
And now Bitcoin is secured by the largest computer in the world,
distributed computer in the world, but secured by the largest function there.
So the token creates the resource
and it creates the decentralization
to maintain and operate that system.
Now, if you don't care about that and you say,
you know what, I just really trust Microsoft
and Google and Amazon and I really trust
the US government or China or whatever,
well then you don't need it.
You can run in a federated sense,
but here are the consequences.
The minute you trust them, they own what goes in that
and what doesn't go in that ledger.
So if they're told, compelled, or decide themselves
to exclude somebody, they can censor anyone
from the global order.
So they have a monopoly on trust,
and they have a monopoly on truth,
and they have a monopoly on who gets
to play in the pond and who doesn't get to play in the pond.
We saw this with social media.
If they own the platform, they get to decide what's legitimate on the platform, what's
not legitimate on the platform.
So you say, Hey, you know, I'm a doctor and this COVID thing is pretty bad.
And, uh, you know, I think these vaccines have issues.
Oh, I'm sorry.
That's against our community standards.
You're blacklisted.
You can never speak again. You're deplatformed or, uh, you know, hunter that's against our community standards, you're blacklisted, you can never speak again,
you're deplatformed, or, you know,
hunter by the laptop, or, you know,
pick your favorite topic, whatever the heck it is.
You get blacklisted and banished from the world.
And you say, well, that's not fair.
Who do I appeal to?
There's gotta be some, well, actually,
it's that five guys, they're not gonna change,
they control the thing.
So unless Elon Musk buys them
or some weird black swan event happens,
you're stuck with that configuration.
When it's decentralized,
no one has censorship capabilities.
Nobody can come in and say,
well, I don't like Sean Ryan,
I don't like his content,
so I'm gonna kick him out.
No, everybody gets to play,
the good, the bad, and the ugly
inside that type of a system.
So in a world that's multipolar,
in a world that's multipolar, in a world that's highly
tribal and there's all these factions fighting each other, it makes a lot of sense to have
something where we have something that we all agree on is a universal good thing and we all
use despite our differences. Because since we have that, then we at least have some anchor of trust.
Your agency, guys, you probably remember all the Russian propaganda.
Russian propaganda didn't try to convince you things
were true or not true.
They attacked the very concept of truth.
They would go out and erode it
and get people so fatigued and exhausted
that you just don't even care anymore if people are lying.
You don't even care anymore what's real and what's not real.
You're just exhausted with the whole thing.
And that's where we're at in America right now.
There's institutional exhaustion.
When I was a kid, if you're sitting at a bar
and the guy next to you was from the CDC,
you'd say, wow, that's really cool.
You're the guys who wear the suits
and go in and deal with the Ebola and everything.
You're a very courageous person.
Now you're looking at it and say, you're the guy
who just tried to kill my kids with vaccines and all these other things.
Like institutional loss of faith. And the same for the FBI and the CIA and the same for
many cases the military. Like a lot of soldiers who fought in Jeewat.
They watched their friends die in Afghanistan and then the US government says, you know, a good outcome for that war was to give
it back to the people that we literally took it from. It's like, oh, well, what, what was the purpose of all of this then?
So you have this institutional anger that's formed and everybody
doesn't trust anything anymore.
And then any government report comes out.
The first thing people do is they take a look at what their tribe's opinion is.
And they don't even care what it says.
They just basically say it's true or false based upon what the tribe says.
So we just lived through Biden and under that regime,
if the CDC said something or NIH said something,
it's 100% true 100% of the time.
Now that Robert Kennedy is in and Trump's in control,
if the CDC says something and NIH says something,
it's 100% false 100% of the time.
So much so when they're saying like,
hey, these artificial food dyes are pretty bad for people.
You have all these people that traditionally, the yoga people, the, you know, living health and vegan people, they're like, no, no,
I just, no, they're awesome. We want some food dyes in our food now, you know, they're great. It's like, what are we doing?
It's because you no longer have objectivity in the world. The concept of truth has been damaged. So that's what blockchain is basically selling, is it's selling this idea of objective reality
in a truth, a synthetic objective reality.
Then you can build an economic system from it.
Then you can build a political system from it.
Then you can build a social system from it, a way of communicating with each other.
And if you have faith and belief in the underlying mathematics and the level of decentralization Then you start trusting the outputs of these systems when I send you a transaction you say well
How do I really know I have the money?
Well, if the system works in this way, you know you have it because you can check it from the ledger
Great, you don't trust the ledger. You then you don't know if you have the money the voting is another thing
You know a Trump lost in 2020, oh, it was rigged.
And when Al Gore lost in 2000, oh, it's rigged, you know,
and it's like every election of my lifetime,
since like, basically since 1988,
like it's been rigged in some way, you know,
and it's always a loser who complains.
Wouldn't it be nice to have a voting system
where you could check your vote
and know it was counted correctly, and you can check the integrity of the system as a whole?
It's the exact same problem as building a decentralized money system and the exact same
problem as building a decentralized social network and the exact same problem as building
a medical record system because you can use blockchain to do all of that.
And as long as you trust that the underlying infrastructure is secure, you're good.
And my job, my life's goal is, how do I make it secure?
How do I get the science right?
How do I make it decentralized?
How do I make it resilient to attacks?
And why the token prices are so awesome is it creates a reward to break the system.
When I first started, Bitcoin was under a dollar.
No one cared.
You couldn't pay somebody to take it and attack it.
Now you have these multi-trillion dollar systems.
So every single day, the most vicious hackers
and the most vicious attackers are trying to beat the crap
out of the cryptocurrency space to steal money.
And they do, North Korea does as a national policy.
They attack exchanges all the time
and steal millions and millions of dollars
worth of Ethereum and other tokens.
And so what that does is it creates this learning and the systems get stronger and more resilient
over time.
And eventually they get to a point where they can run social scale infrastructure, like
a nation-states elections or a nation-states money system or something like that.
So that's kind of crypto in a nutshell.
And the other thing is a smart cow effect.
And this is something that's so cool.
So if you're a rancher, you always have a lot of dumb cows,
but then you have that one smart cow
and there's the most frustrating fucking cow.
If you find it, you shoot it
because the smart cow figures out how to get out
and they don't just get themselves out.
If they can open up the fence,
if they can open up the gate,
all the other cattle follow them.
So if you invent something in a global, open,
decentralized sense, whatever idea you have
is everybody else's idea.
So the minute I figure out a secure protocol,
everybody knows the secure protocol.
The minute I figure out a secure voting system,
everybody has a secure voting system
and they're royalty free, they're open source.
So what we've seen is an exponential growth
in the innovation in the industry.
So a great example would be zero knowledge proofs.
These are some of the wildest, coolest things.
They were invented by MIT back in the 80s.
It was Sylvia McCauley and all these other guys
and they were geniuses and they got like the Nobel Prize
in computer science for it.
But basically the idea of a zero knowledge proof
is for me to prove something to you
without me telling you what it is.
So for example, let's say I wanna prove to you my age
and I'm over a threshold.
Like you go to a bar and you say,
hey, are you at or over the age of 21?
Well, how do you normally do that?
I show you an identity document
like a driver's license or a passport.
But then the minute I do it, you know my exact age,
you know my name,
you know all this information.
Well, what if I had a way to just generate a proof
and it's yes or no, are you at or over the age of 21,
but you don't know my age?
This is your knowledge proof.
And so they invented a way to do this in the 80s
and it was an academic toy.
No one cared about it.
It was like verified computing and mathematics stuff
and who cares?
But then the cryptocurrency space said,
well hang on a second, we could use this
to have private money and private voting
and all this other stuff.
So in just five, six years of the cryptocurrency space
being interested in this topic,
we went from a few papers being written a year,
a few lines of code being written a year
to hundreds to thousands of papers,
to millions of lines of code and hundreds of projects
and billions of dollars inside these systems.
So it did, probably in the last five years,
more that's been done in 40 years of academic research
for that one thing.
And that's the magic of the Smart Cow effect,
is that when people start catching on to a good thing,
they just go crazy with it.
Voting innovation too,
like why is it a giant turd sandwich versus a giant douche every
fricking four years?
Why do we have horrible choices?
Because the ballot architecture is wrong.
It shouldn't be left or right, it should be a preference order.
So instead of picking one guy, you pick your top five.
And then when you do something like that, You never throw your vote away because you'll pick your absolutely most favorite candidate here
And then your second most favorite and then your third most favorite so you can always vote for third parties
And there's no concept because you talk to people like more than 70% of people would like more than just two options
So if you give that to them just by a change in ballot architecture
You would get suddenly get coalitions and third parties get represented in the political mirror.
But what Democrats and Republicans did is they got together,
there's only one truly bipartisan thing.
It's only Republican Democrats can be elected, no third parties.
So they built the ballot architecture in a way to prevent any diversity.
So with the cryptocurrency space,
because they have to govern these decentralized things,
there's no corporation that controls a cryptocurrency infrastructure, you they have to govern these decentralized things, there's no corporation that controls
a cryptocurrency infrastructure,
you have to create on-chain governance,
which means you're in the business
of building voting systems and political systems
and all these other things.
So what do you do?
You go and you say, okay, well, God,
I need to dust off these books on political science
and voting theory and stuff from written in the 1950s
and 60s and literally read them and then implement them.
So you have quadratic voting and linear preference,
you have board and contrasay counts,
you have anonymous ballots,
you have voting rounds and voting times
and then maybe runoffs with plurality
and liquid democracy is another example
where you actually delegate power to somebody
but you can pull at any time.
So imagine a congressman that their voting power
in the house is connected to how much delegation they have.
But if you don't like them, you can pull delegation
and they get less voting power.
And if they fall below the threshold, they get kicked out.
It's called liquid feedback.
See these things-
That sounds amazing.
Exactly, right?
And these things have existed
in the political science world at universities and things,
but no one ever adopts them
and puts them into the governing systems
because the cadence of change of a government
is by years and decades or centuries.
Usually it takes a war and you get conquered
and then you build a new political system
or an economic collapse
and then you build a new political system.
So maybe you get to change your voting system
two or three times a century.
But in cryptocurrency space,
you have 1.4 million cryptocurrencies
that have been issued since 2010.
And a lot of them are starting to get on-chain governance,
which means they're building their own voting systems,
which means we, in real time,
at a scale of millions to tens of millions
to hundreds of millions of people,
get to test an entire economic system,
an entire social system, an entire political system.
And it's adversarial.
You get people trying to break it and destroy it.
And so if there's a bug or flaw in it,
it's exploited and the system collapses.
So the minute someone comes up with a good system,
everybody else steals that,
and then they use that as the standard.
And then you reset in the standard and reset,
use that as standard reset.
It's so extraordinary and it's so magical
because you're literally rewriting the fabric of society
as you do these things.
And then eventually the regular world is like,
boy, there's a lot of value that these guys have created.
So they start adopting it and they start absorbing it.
But the problem is that the only way to get the systems
to work truly together is for you to go from federated
to decentralized.
So these big middlemen,
they're gonna start evaporating
because there's no reason to use them.
And even if they wanna hold onto the monopoly,
if there's a more efficient system
that was a different configuration, some jurisdiction,
maybe Abu Dhabi with the ADGM
or Singapore with a monetary authority will adopt it.
And you can't compete against somebody
that's 30% more efficient or 50% more efficient.
The capital naturally moves in that direction
and then eventually you get to a point
where the system as a whole becomes that new standard.
It's very much like the internet and media.
Old media, they had a monopoly,
they controlled what's real, what's not real.
There was fixed distribution points
and then the internet comes out
and you can just get information any way you want.
So papers had to learn how to adopt and adapt that paradigm.
And if they didn't, they died and disappeared.
And it's much the same with cryptocurrencies.
They have to blend the systems together.
That is the best explanation of cryptocurrency I've ever heard in my life.
Thank you.
Uh, let's take a quick break.
Sure.
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All right, Charles, we're back from the break.
I'm still trying to wrap my head around the crypto thing.
That was, like I said, the best explanation I've ever heard in my life.
But when you're talking about voting and all these other things that we can use
blockchain for, I don't, I don't understand how that works.
And so how would, how will we vote on the blockchain?
Okay.
So if you think about a vote, a vote is kind of like a token.
Mm-hmm.
So how many votes you get is how many tokens you have, and where you send the token to
is who you're voting for.
And if you're allowed to vote for just one person, it's an atomic transaction.
If you're allowed to vote for multiple people, you have a certain amount of power, so that's
how much tokens you have, and then you split it amongst multiple addresses.
So now that you have that set up, you're like, wait a minute, that's how much tokens you have and then you split it amongst multiple addresses So now that you have that set up you're like, wait a minute
That's exactly the same as like how Bitcoin works or any of these cryptocurrencies work
You have tokens and addresses and you can push them around
So when you do an election, there are a collection of things you have to concern yourself with like first off who gets the tokens?
So these are registered voters
So the most important part of any election is what is
your voter registration process and how secure is that? So we have numerous people, countries,
other people come say would you like to bid on an RFP for a blockchain-based voting system? And the
very first thing I ask is well what is your identity system look like? How do you identify
people in your your nation state? And if that's not a secure system, I have no desire to build a voting system
because all you're doing is you're building
a very secure way to count dead people.
A very secure way to count fake people that don't exist.
Because I can always just register someone in the ballot.
So the step one is, what is your digital identity component
and how do you get to know somebody is real
and they're suitable for the election?
Then the next stage, assuming that everybody is suitable,
then you have to decide, well,
what are the election mechanics that go on?
So is everybody equal?
So everybody gets one vote,
or do certain people have stronger votes?
So like weighted votes.
And so like shareholder votes are like this.
And so if you own stock in Microsoft or Google or something,
well, if you have a lot of shares,
you have more voting power
Than other people because you can have many different configurations and again, it's just like tokens
How many vote tokens do you have for that particular thing? Then you ask? Okay, is it an anonymous or?
Is it a public and transparent vote? So in a lot of elections for shareholder votes, you can see who voted where you know?
This person voted against Elon Musk pay package for Tesla with this person voted. Yes
Okay, others are anonymous ballots meaning that when you vote the outside world can't see it
But then you ask another question of audit ability
So just because the outside world can't see how you voted
Can you see how your vote was recorded? And some systems they say no,
and the reason being is they don't want you
to sell your vote, because if you can prove
how you voted, then you know, Bob over there
can give you a hundred dollar bill if you vote this way.
And other systems they say yes, you can do that,
because you know, you wanna be able to check that.
Then there is the mechanism, is it atomic,
maybe you can only vote for one thing,
or does it allow you to split?
You can vote for many things.
And so that's rank choice or linear preference.
And then also you can have mechanics
where if you have a lot of voting power,
the more you vote for any one thing,
there's a dampening effect as you start voting more.
So if you try to put all your voting power in,
it actually ends up being less.
That's called quadratic voting.
So you have all kinds of mechanism for that.
So those can be grafted on and built into a cryptocurrency
as an application.
And you can use the blockchain because it's immutable,
it's timestamped, and it's auditable
to audit the system as a whole.
It's immutable, meaning that once the vote is counted, it can't be changed.
It's timestamped, meaning that the vote only occurred
in a legitimate time period when the election was occurring.
It wasn't in and out of the election period, right?
And then it's auditable,
meaning that everybody can see those records.
They can actually verify that that is what it is.
So you actually get two properties that are really cool.
Not only can you not,
you can verify your own vote was counted correctly,
you can verify the integrity of the system as a whole.
This is a property called inclusive accountability.
So, and we lack this in most infrastructure.
Everything is trust me, bro.
So why is the money in your bank the way it is?
Well, that's JP Morgan Chase's ledger
or Bank of America's ledger, or something like that.
And there's a loose consensus
amongst all the different banks
that the ledgers are accurate,
but at the end of the day,
there's no like mutable law of physics
that says the number you see on the screen
is actually an accurate number, right?
So with a system that's conclusively accountable,
any user of the system has enough information
to reconstruct the entire history of the system has enough information to reconstruct
the entire history of the system
and verify that that state is correct
that they're looking at.
Bitcoin, every transaction that's happened
since January 3rd, 2009, same for Cardano
when it launched, is verifiable,
meaning you could start at the very beginning
and go through the entire history of the system.
And at the tip of the system,
what's going on today here in June of 2025,
you'll be able to see that that transaction is connected
to a chain of events all the way back to the beginning.
So inclusive accountability is super powerful,
but it's super expensive to maintain.
It's very hard and there's a lot of work you have to do
to have it, but if you have it,
it means you can have self integrity.
You personally can verify with your computer
that the system that you're looking at,
the history that you're looking at
is correct by its construction.
This is why it's so seductive to try to build
a voting system on a blockchain system.
Then there's the question you ask of the on and off ramp.
So what does the user experience look like?
How do I personally do that?
Okay, well, you'd have your phone or your computer
and the same way you would send a cryptocurrency
is the same way you would vote.
So you'd vote with your phone or an app.
Now a lot of people say, well, I don't know,
my phone can get hacked or there can be a problem with it.
So a lot of people, what they wanna do
are what are called hybrid systems
where they have a paper component
and they have a digital component.
So you vote with the blockchain on your phone,
and then it generates a paper vote at the same time,
or you vote with paper,
and then it generates a blockchain record at the same time.
Then you have a dual audit.
The votes have to match.
So you count all the paper,
you count all the digital votes,
there should be a one-to-one correspondence
between those two sides.
And they're different modalities.
One is a digital modality,
and the other one's a paper modality, you know, so to hack them you
have to use fundamentally different social engineering for both of these
types of things. Now every election has other properties too, like how frequently
do you do an election, what's the cost of running the election, the ballot axis is
also very important. In fact, you know, Stalin used to say it doesn't, it doesn't matter who gets to vote, it matters who counts the
votes and what do you vote on.
So if there's only one candidate on the ballot, you're always going to end up with Kim Jong-un.
You always end up with the guy.
So who gets to be on that ballot?
And what are the inclusion exclusion principles of this?
And this is how third parties are excluded in the United States amongst other places.
And then when and how is that counting and tallying done? The blockchain system will take care of the
tallying and also you can program any ballot architecture that you want inside that type of
system because there's no cost on a digital side to have a million candidates in the system. The
paper side there is. So that's one of the excuses they use to exclude people
unless they sign hundreds of thousands of signatures
and things like that is that they'll say,
well, you know, we can't print, you know,
5,000 people on the ballot.
It'd be prohibitively expensive to print like 40 pages
times 5 million, you know, something like that.
It doesn't make sense.
So in your trade-off profile-
Could you just write in a name?
You could.
And that's the way.
Not have anybody on it.
But that's always available in all ballots, right?
There's the write-in spot that they have.
You know, but that's disenfranchising
because, you know, to vote for Bob,
you just fill in a circle.
To vote for Bill, you have to remember his last name.
You know, and what if he has like,
Schwarzenegger is his last name,
or is like, who's gonna spell that right?
You know, and all these things.
So it's, the more a person has to do.
I think that would be your job.
That would be your job as the candidate to make sure that that is addressed.
Yeah, you give a stamp, right?
Here's, here's the Schwarzenegger stamp.
In fact, they used to do that.
You know, they, it's called a down ticket.
Uh, so, uh, in the 19th century, when voter laws were a little looser, uh,
people would print out ballots with the entire stuff already pre-filled out
and they would hand it to people
as they're walking to the polling thing.
So they say a down ticket candidate
meant that the whole party was on one ballot.
And so all the Republicans would be on it
or all the Democrats run it.
Here's your pre-filled ballot,
just go and drop it in the box.
And they would stand outside the polling places
and hand people that.
And they'd also bribe people too.
They'd be like, hey, you wanna drink?
Like you have to take this and put it in the box
if I give you a beer, okay.
It's like all kinds of dirty stuff happens in elections.
So, you know, at the very least,
having the digital side to replace mail-in ballots
makes a lot of sense to me,
because I hate mail-in ballots.
It's one of the worst ways of voting.
You don't have a chain of custody of the ballot.
You set it out over the open mail,
you have no idea who's actually filling in the bubbles.
And also you can sell your vote very easily
because you just hand the ballot
to the person who's buying the vote,
they can fill in all the bubbles and you sign it.
They're like, oh, that's fraud.
It's like, who's gonna know?
And the other thing is compromised people,
you could do bundling.
You can just go to an old folks home
and register hundreds or thousands of people in an area
and they're all mentally compromised
and then the ballots show up
because they have a legal right to vote.
You can't exclude them.
And then you can just fill the ballots all in
and then do a drop in the middle of the night for people.
So it's a horrifically insecure system
when you really start thinking about all the things
that could go wrong and they say,
oh, they're gonna do signature verification.
It's like that never really works.
It's not a digital signature.
You just sign it.
Like how many are actually rejected
inside these types of things?
So building voting systems, I like the idea
of preserving inclusive accountability,
allowing you to check your own vote,
and also you have to have a strong digital ID system for it.
Then 95% of the integrity issues are probably gone.
And if it's on blockchain infrastructure,
you have that inclusive accountability,
you know the system as a whole is properly constructed.
And again, that smart cow effect
that we were talking about earlier,
once somebody is designed a secure voting system,
it's free.
Everybody has access to that design
of that secure voting system.
So what's nice about the cryptocurrency space
is the vote on changes to cryptocurrencies,
like new monetary policy
or upgrading the code or something like that.
You're testing a voting system.
And the hacker has an incentive to try to break that
to steal the money or damage the cryptocurrency.
Because if you can damage a cryptocurrency,
you can short sell it, right?
You can go and say,
I'm gonna take all these short positions here
and then I'll create grievous harm.
And then the value goes down and I make tons
Of money because I'm leveraged short selling for it. So everybody has a strong financial incentive to break your shit
So if you have that that means that any voting system will be under extreme scrutiny by some of the world's greatest hackers
And if it stands the test of time it has reliability and just like RSA does or elliptic or crypto does it's like the multi-decade
Reliability that you have and then you could say okay, That's a good voting system and we can plop it down
Voting systems are also connected to demographics
You know the older people may want to use paper younger people because they're natives on phones would want to use phones
By having a hybrid system you accommodate basically both sides of the system and and then they're also connected to frequency, like how often you're having an election.
What's nice is by having a digital system,
you can do digital only for preference polling.
So you can say things like,
hey, the Broncos just won the Super Bowl.
And citizens of Denver,
we wanna know when to do the parade.
Do we do it on Tuesday or Thursday?
So you can send to verified Denver residents a poll
and actually get a vote that's statistically significant
and actually almost like you ran an election
and it cost you almost nothing to do
because you have direct democracy.
You can just push these things out.
And then you can start talking about more exotic forms
like approval polls or things like that.
And you say, if the politician falls
below a certain approval rating
for a protracted period of time,
there's automatically a recall election
or they get suspended until they can get above that approval rating or something like that.
So you can start thinking about much more granular representative democracy than just
term-based representative democracy.
This sounds amazing.
I mean, is anybody close to implementing something like this?
Any countries, any governments?
Well, like Liquid Feedback was used by the Pirate Party over in Sweden,
and a lot of countries do do a rank choice voting and other things like that,
and organizational design, people have come up with all kinds of cool, interesting voting systems,
but it's a field, when you look at the nation-state level, that evolves very slowly,
years, decades, centuries, and typically it evolves as a consequence of an invasion,
a collapse, a calamity, or a major scandal.
You tend not to change social infrastructure
until social infrastructure becomes inconvenient
for some reason.
And in many cases, social infrastructure is unchanged
even when it's inconvenient
because it benefits an oligarchy inside the country.
Like back to India and cryptocurrencies, like why do they have the 1% tax and why do they
not open up for remittances even though it would be wonderful for them?
Because there's these large companies that make all this money by being middlemen to
prevent those remittances for coming in.
So we have a unique opportunity in the United States because Trump really does want to change
the voting system and make it more secure. And the US government is bracing
blockchain and cryptocurrency technology.
But again, you can't just talk about voting.
You have to talk about the digital infrastructure.
And there's a whole different house of concepts there.
And there's a whole different house of actors
you're gonna piss off by changing this type of stuff.
Because you don't just talk about identity.
You talk about identity and the metadata
behind the identity. And you talk about identity and the metadata behind the identity.
And you talk about reputation behind the identity.
Because identity has two major families of things.
One is facts and the other is opinions.
So facts are things like, I was born November 5th, 1987 in Maui, Hawaii.
That's a fact that happened.
It's either true or false.
Or, you know, I attended this school.
Or, you know, you're a Navy SEAL,
and you have a certain Bud's class and all these things.
Those are facts.
Either they happened or not.
Opinions are like, you were a good Navy SEAL
versus a bad Navy SEAL, right?
And everybody has an opinion on these things.
I got a Team Six guy on my security detail,
and he thinks that certain prominent SEALs are overrated.
You know, like every SEAL's got these opinions, right?
And I won't say which ones, right?
But you get the idea.
So opinions are always referential.
So it's not just the opinion, but the opinion holder.
So when they say, well,
that guy who thinks that person's overrated,
well, who is he?
Oh, he was a team six guy.
I was like, oh, okay, that's pretty credible.
You know, like at least he's like, he's in the club.
He's allowed to have that opinion.
Just a fat dude at the bar, you know,
never done anything in his life.
It's like, oh, fuck you, man.
Get the hell out of here, right?
So it's always referential to the opinion holder.
Facts are not referential, they're objective reality.
Well, identity is one of those few things
that embed both of those things.
We are a composition of objective reality
and subjective opinions.
Well, this is important because we have to make decisions
about trust relationships.
So, do I give you a loan or not?
Do I admit you to this university or not?
Do I let you into special forces or not? Do I let you into special forces or not?
Do I let you go to the Q course or Ranger school
or whatever?
Or, you know, do I trust you with my children?
And what's interesting is you can have this weird paradox
where you could be both completely unreliable
and hyper reliable at the same time.
So I may trust you to be a special warfare guy
and go on life and death missions
and be with the friends, but not trust you with my doc.
It's weird, right?
But there's probably some intersection point
that somebody listening will say,
oh yeah, I know that guy, right?
And so identity embeds both these things.
And so the first thing that we did as an industry
is we said, is there a path where we can reimagine the representation of identity where both these things are first-class citizens.
So the W3C is a standards body and it standardizes things like HTML and CSS, so the presentation
layer of the internet. They actually had a working group that people worked on for more than 10 years
and they created an open standard called the DID, the Decentralized Identifier. And what the DID is,
is it's basically like a web address for you.
And so it has the URL, the web address,
and then the web page, which is the DID document,
which is all that metadata, which embeds both the facts,
and also it can embed the opinions.
And it's built on the same technology
as cryptocurrency concepts.
So it's public-private keys, these types of things.
So there's a part you show everybody
and you can have cryptography in it
so you can prove it belongs to you.
So it's a non reputable identity, nobody can forge it.
Well, it's so general that it works in the legacy world
but it also works in the blockchain world.
It can be used for access control,
like logging into a website without a password.
It can be used for a financial transaction
and also with zero knowledge cryptography,
like that ID thing we were talking about earlier,
where I can prove my age without revealing my age,
I can prove I'm over a threshold.
It works with that as well.
So this is a new identity primitive.
And there's a broader concept called SSI,
self-sovereign identity, meaning you own it.
So it doesn't belong to Microsoft
and it doesn't belong to Google or the US government.
You can create this did and build a reputation around it,
and get third parties to verify facts about you.
But it's your credential.
So it's censorship resistant.
Because here's the problem with that identity system.
What if your passport's revoked?
Or what if your identity documents are invalidated?
It's like everybody, and it serves the military,
like what if there's an inaccuracy on the DD-214
or something like that?
It's like, well I served here and I did this and this well, I didn't say that on the document. Sorry, bro
It's like you you were not an 18 Delta and it's I was it's like well the document doesn't say it
But what if you own that document and you can self verify these types of things?
There's a path to do these things
Well, then if there's a bureaucratic miff up
It doesn't have any consequences because you actually have the underlying evidence and the signatures from the entities
where and when it happened for these types of things.
So digital identity is very closely related
to all these different things,
whether it be voting or money.
In the money case, ID and money come together
and we call that compliance.
So I give you $100, no problem.
I give you a million dollars.
Who is Charles? Know your customer, anti-money lottery, anti-terrorism, no problem. I give you a million dollars. Who is Charles?
Know your customer, anti-money lottery,
anti-terrorism, these things.
There's this wonderful book from Ron Saurat
called, Treasuries War.
And it says, hey, the GWAT wasn't just fought
on a battlefield, it was fought by accountants.
There was all these guys at the banks
and the financial institutions
and they created this huge anti-terrorist layer
and they were monitoring transactions
to try to understand how does ISIS get its money
and how does Al-Qaeda get its money.
And so they got a very pervasive and aggressive understanding
of basically how money flows
and who's sending the money and these types of things.
But inadvertently in the process of doing that,
they removed any notion of privacy from the system.
And it's very uncomfortable because now that a policymaker knows who's sending money where what, And inadvertently in the process of doing that, they removed any notion of privacy from the system.
And it's very uncomfortable because now that a policymaker knows who's sending money where
what, I also know like you buy guns or I also know you voted, you're giving money to this
politician or I also know that you have land in a certain area or you have certain preferences.
Well, if I'm against that preference set or I think that's politically inconvenient to
me, I can now use that information to weaponize it
and go against you and politically censor you
or harm you with soft power.
So you really wanna try to preserve some sense
of anonymity inside the system if you can get away with it.
So the great part about reconstructing digital identity
is that you can have safety, but anonymity.
I can prove that you're a US citizen
or prove that you're a credit investor or prove that you're a credit investor
or prove that you're over an age
or you meet the suitability guideline.
Like here's a great example.
You have all these guys running around
who hold top secret clearances like SCIs to the fucking nines.
They know special access program, this, that, the other.
So they're literally the most trusted people
that you can imagine.
I mean, the government knows what their colon looks like
at this point, and they do the adversarial polygraphs
and all these other things.
But then when they go to the airport
to stand in that security line,
they get molested by the TSA guy
because there's no interoperability
between those trust systems.
So on one hand, we trust you
with the nation's highest levels and secrets,
but on the other hand, we don't know
if you're gonna bring a nail file on the plane.
It's like it doesn't make any sense.
But if you have a unified trust system with zero-knowledge
proofs, you can prove you're in the trusted category.
The TSA guy has no idea why you're in that category.
He doesn't know that you're a secret squirrel dude
doing crazy stuff.
And he just knows that you're in the trusted category
and doesn't get to molest you inside the line.
And that's how it should work,
is that you have these proofs.
And so you have a did, you have a did doc,
it has all these identifiers,
some are public and some are private.
You can have different dids for different personas.
So you can have one did for an alias,
maybe you're doing trade craft and you have that.
You have another did for your military life,
you have another did for your personal life, you have another did for your personal life
and for your professional life, et cetera, et cetera,
your LinkedIn profile as the did here.
And then there's various public fields and all these things
and there's provability with all these things.
And then you can at any time pick up that,
you own all of them, but they're unlinked.
So you don't necessarily have to combine them and say,
well, this is also the same
person as Sean Ryan.
It's an unlinkable identity, and you're in control of all of that.
And then you have the ability to at any time prove properties at your discretion for these
types of things.
So that's the other side that the cryptocurrency industry has been really thinking about because
it's so pivotal to everything we do.
If it's an engine of trust, where does trust come from?
Well, some of it's objective by the structure of the system,
but then some of it's subjective,
like who are the members of the system?
And so, the minute you step into who are the people,
you have to have a representation of identity.
And once you have that representation of identity,
you can then use that to prove
all kinds of things that you want.
And eventually you can reconstruct reality.
Because you can say, okay, now we can build a credit system.
And instead of it being decided by, you know,
these four credit agencies and they give you a number
and who the fuck knows where this number comes from.
Like for example, I'm a billionaire,
but somehow my credit score is lower
than some of my family members.
I just can't for the life of me understand that.
I'm just like, guys, it's just like,
I really like guys, you understand. This just like, I like guys, you understand
this is like, like a beyond your notion of credit, but yet somehow my credit score is lower than my
secretary's. It's like, it's, it just, it bothers me. She makes fun of me for it. Um, and I just
don't understand it. Uh, so, so, so obviously that credit system doesn't seem to make sense and, and
it's weaponized in many cases against a lot of people who got into some bad situations
So we should probably have
Marketplaces for those things and more decentralization for those things
Otherwise you those actors can basically decide who gets to win who gets to lose in society
So that's what crypto is really about at its core
It's like it's that trust and then you start looking at fundamental objects like money,
voice and political opinion, social influence, identity, and then you say, can I represent
these things mathematically as something, as an object that lives out there in the cloud?
And then can I make them programmable?
And then can I build an economy around them?
And then can I have them compete in an all-you-can-eat buffet of different
ideas and have those ideas run in parallel and introduce ethosarial thinking so people
come in and try to break them and destroy them. And if they do, they get a reward. They
get millions of dollars or billions of dollars and run away. Yay. But if they can't break
them, then the system becomes stronger and then it becomes this system and takes over
in me. and then it becomes this system and takes over.
There's a lot there. Going back to the voting, I mean, so there are discussions about possibly
implementing this within the US.
Yeah.
And the first step is.
And I would imagine that pisses the institution off to no end.
Yeah.
Yeah.
Well, the first step is standardization. So, you know, just like that post quantum discussion,
you don't want to run too far off the reservation.
You want to say, well,
the government's not going to procure something
unless they have standardization for that thing.
So NIST is highly involved in these types of things,
but the Department of Commerce is highly involved.
And before the DOD thinks about it,
or some secretary of state and some states thinks about it
You really need to reference something like what is the statutory definition or the standard RC for what is blockchain?
And for this and for that and this you have to build all those components up as a house of abstractions
And codes and numbers like if you want to secure something and use it in the military
Maybe you need FIPS 190-2 or something like that.
There's some processor standard, they point to that,
or mil-spec is another, you point to it,
you say, that's that thing.
Then once you have it, you say, okay,
now we can have a conversation about writing an RFP
and building something.
So what's happened is we've had kind of a lot of chaos
because it's hard and it's complicated,
and the people making the decisions are pretty divorced
from the realities of the technology.
So they want to do it and they understand philosophically that they're there, but they
don't have the vocabulary and they don't have the bureaucracy necessary to be able to get
into this world.
And so the thing we've been working on is saying, don't pick winners and losers right
now.
Don't even talk about winners and losers right now.
Focus on instead, the taxonomy, get the words right, get the language right,
get the standards right, have a notion of what is decentralization.
You hear it all the time, the crypto word decentralized.
We're like, what the fuck does decentralization mean?
I asked this question.
We've written 240 papers, academic papers in my company, over 10,000 citations.
So we said, you know, we should write an academic paper.
And we thought, oh, you know, that'd be really easy.
We'll just like have paper in two months.
And it took like six years.
And then we created a standards group
at University of Edinburgh.
We created something called the decentralization,
the Edinburgh Decentralization Index.
And it turns out there's eight different lenses
you could look at for decentralization.
Everything from the token distribution
to the consensus algorithm,
to how the code is written, all this stuff.
And it's a trade-off matrix.
It's not like one number that you can get to
and say, this is the only number that matters.
It's more like, what do you value?
Do you value operational resilience
or do you value a large distribution of the money?
You can have a fully decentralized system,
but one guy owns all the tokens.
It doesn't really make sense, right?
Okay, you have a system where a lot of people
own all the tokens, but only three people run that ledger
and it's federated forever and you can't get rid of them.
Doesn't really make any sense.
So it seems like there's some combination of these things.
So we just started measuring these things a few years ago.
The next step is to take that model to NIST
and other standards bodies and say,
how do you integrate this
and then start creating some infrastructure
so then the government can use this tool to measure this
from a qualitative and quantitative way
when they're assessing technology.
Because the military probably doesn't wanna go
and adopt the blockchain technology
that has a back door in it
or has an operator that China can coerce
and then suddenly the whole thing comes down.
It's the same for a voting system. You don't want to adopt a voting system that's fundamentally insecure
or has some sort of hidden vector of attack inside of it.
So the standards get you to a point where you can have that conversation,
then the RFP process then allows the government to start experimenting with it.
Now that said, there have been plenty of pilots that have been run
and DARPA's done stuff and DOD's done stuff and various states are doing things.
Like the state of Wyoming's passed over 30 cryptocurrency related laws and created all
kinds of cool and innovative structures.
So there's a lot of stuff that's happening at the state, county level and some in the
federal level.
And thanks to Trump embracing cryptocurrency, there's an all of government mandate now to
say, hey, we should actually consider blockchain technology and cryptocurrencies as a first class citizen.
And solving future problems, we actually think that there's a there there for these types
of things.
The challenge again, though, is that the bureaucracy, it runs at a different clock speed than we
do as an industry.
So we think if it doesn't happen in like five days, it didn't happen.
The government, if it doesn't happen in like five days it didn't happen? The government if it doesn't happen in like five months, no that's actually pretty good you know
may come back in a few years maybe we'll have something for you you know it's
it's a different clock speed. What do you think we've learned from countries that
have implemented crypto? Is there is there is there is there national
currency? Was it El Salvador, Honduras, did they do it too?
I think El Salvador, that was Bukele.
I actually went down there after he did it.
So El Salvador was like living on a different planet.
I got some stories for you.
So this is back in 2021, El Salvador, Bukele,
if you ever meet him, he's like in his early 40s
and he is a super charismatic guy.
He was like a nightclub manager for a bit,
and then a mayor of something,
then now he's the president of the country, right?
And he's just got this style that's just magical.
So El Salvador adopted Bitcoin as their national standard,
and then he said it,
but they had really no plan for how they were actually gonna adopt and bring Bitcoin into their national standard. And then he said it, but they had really no plan
for how they were actually gonna adopt
and bring Bitcoin into their country.
And so they had these guys that were local
and they were just terrible.
And so Bukele is like, I need some help.
So we knew one of his guys,
there was this coked out CIA guy, his name was Marty.
And he was friends with this other guy named Damian,
who was like the political advisor to Bukele.
And so I was friends with Marty and Marty's like, you got to talk to Damien.
So I talked to Damien.
He's like, you should really meet Bukele, meet the president.
And I'm like, okay, I guess I can go to El Salvador.
I've, I've heard interesting things about that country.
So we first had a phone call with him and I was like, am I really talking
to the president of El Salvador?
Like, can we verify this guy real?
So the next time we had a video call and it looked official,
there's flags behind him and everything,
and it looked like Bukele.
And we're like, okay, I think we're talking to Bukele.
So then eventually we planned a trip
and we went down to San Salvador
and it was the wildest week in my life.
We landed there and we go and first we have dinner
with Bukele and we ended up spending like four hours at the presidential palace and it was like this long non-secretist
Conversation about various things. He was like like Latin American Gaddafi was just it was crazy and
And I was like, okay. Well, how are you gonna actually implement it? We're just gonna do it
We're just gonna figure it out and we have six months. Let's do it, you know
Okay And it's just, we're just gonna do it. We're just gonna figure it out. And we have six months, let's do it. Okay.
So then we had a group of people we brought in
and we started talking to all the different
government agencies.
We talked to the central bank and we said,
okay, well, what are the compliance guidelines
for adopting cryptocurrency here?
It's like, well, we don't have any of any.
And they said, well, where are you getting
your business requirements?
And they said, Facebook.
What?
And it's like, yeah, the president does all
of his speeches on Facebook.
So we just listened to the president's speeches and then we'll adopt, you know, whatever he
says over the speeches.
We're like, okay, that's great.
But the trippiest thing is they wanted to do like this Bitcoin mine, you know, was using
geothermal because I guess they got volcanoes there.
And so they had this harebrained scheme that they were going to build this big Bitcoin
valley with like big geothermal power and they'll have all the Bitcoin miners come because now it's
like Bitcoin utopia. So we were talking to the minister of energy there and it was like a Dr.
Strangelove scene. It was so crazy that he looked like, you know, Dr. Octopus from the Spider-Man 2
and he talked like this, hello Charles, the power of magma will be the destiny of El Salvador.
And we had these Guatemalan guys in the meeting for no particular reason and they were smoking
inside the ministry and they're just like, yeah, fucking magma man, we're going to get this done.
It was just one meeting after another meeting of all this stuff. Then we're like, okay, okay,
the US government's got to know what's going on. So let's go talk to the state department.
And of course, Biden, you know,
he never found something he couldn't fuck up.
So the prior ambassador was this great guy
that Bukele really liked.
They had a wonderful relationship together.
They'd hang out, like, watch movies together
into one o'clock in the morning.
So the first thing Biden did is fire that ambassador
and put a new person in and say,
the policy of the US has now regime changed.
So Bukele went from, hey, we like the US and we're friends
and I get to hang out with the ambassador
to the ambassador wants to kill me.
Okay.
For no particular reason.
It's like Forrest Gump
for no particular reason.
They shot that man.
So, so anyway,
we meet the US ambassador there
the Adichie, where the hell she was.
And we're just like,
okay, well, we've seen all this insane stuff going on.
Like surely you guys must know what's going on.
It's like, no, we thought you knew.
So it was just chaos.
It was absolute chaos.
They had no real plan on how to adopt Bitcoin.
They had no real plan for how to use it.
And they passed the legislation for optics and they wanted to attract a lot of
direct foreign investment in, but they didn't really understand our industry.
So what they ended up doing in El Salvador is they adopted a centralized solution
So they said there's Bitcoin
But then they had this thing called the Shiva wallet and then people would deposit and they would get a representation of it
And they could spend it amongst each other with the wallet there in El Salvador
But there wasn't in our view appropriate controls to audit and verify there was a one-to-one
Correspondence between actual Bitcoin and the currency that they were trading.
The other issue is we went to the Treasury Department,
the State Department, we met with all these guys in DC,
and we tried to say, hey, you know,
is there any way we can work together on this?
Because there's millions of El Salvadorans
and like 25% of the populations in the US,
they're kind of under your jurisdiction,
and there's all, like half their economy relies
on remittances from the United States.
So whatever they do in El Salvador, the United States is gonna have to have an opinion on that
We have to get the regulation to work like Mucaylee for example want to do an airdrop to everybody in
El Salvador and we're like, okay, but
MS-13 is on an OFAC list and so if we give Bitcoin to all these people
We're facilitating a transfer of value to a terrorist organization.
That's no bueno, we can't make that work.
So Justice Department has to give a clearance
and understand what the rules are and everything.
We just couldn't get there.
So we passed on the deal after a week,
but it was just wild walking through all that
because it was like the whole country was like a startup.
The other thing is they were running everything on WhatsApp.
So all the ministers were like in WhatsApp groups
and just talking to each other.
And that was their official form of communication.
And there's layers and layers of other things
I can tell you off the record,
and especially with some of the interpersonal dynamics there.
But what it did do was because El Salvador
is a real country,
it actually made Bitcoin the official currency.
And it forced the IMF and it forced
all the transnational bodies to actually start
recognizing Bitcoin as a currency
and start talking about cryptocurrencies
from a different lens and perspective.
They looked at it as kind of a shadowy, speculative asset
that weird autistic nerds trade online and who knows.
To well, if a nation
state's using it, technically speaking, it is a currency and there's something there.
At that moment, it was a sea change and it created cracks in the foundation. When El Salvador didn't
collapse, but rather they got a lot of direct foreign investment and all the Bitcoiners came
there, Bukele's Gambit actually worked.
It said it's okay as a nation state
to adopt cryptocurrencies.
You're not gonna get retaliation.
You're not gonna get crushed by the IMF
or these other people,
these big transnational bodies that came in.
You know, because the IMF was always a boogie man.
I remember meeting the Prime Minister of Georgia,
it's a country in Eastern Europe.
And we talked about like the digital lorry
as a stable coin.
And he said, well, we tried, but the IMF came in and said,
we'll pull all your funding, all your loans
and just burn your country to the ground
if you go and do this.
So they were always the boogeyman.
And when El Salvador had the balls to say,
fuck it, we'll just go and do it,
because boukeli is boukeli.
And they didn't get destroyed.
It was a very pivotal moment.
So what is the IMF?
The International Monetary Fund.
It's like a transnational body that basically oversees the loans to countries and litany of other things.
So after World War II concluded, the United States won, and we were in charge of everything.
And there was two systems, the Soviet system and our system.
And so we set up the World Financial Order,
it's called the Bretton Woods Agreement of 1944.
And that plus the Marshall Plan,
plus things that happened in the 50s and 60s,
they created a world order.
And we established these big transnational bodies
like the World Bank and the World Trade Organization
and the IMF and Swift and so forth.
And basically what they did is they created a management layer for the entire financial
system of the world.
Any place the dollar touched, any place America touched, you adopted not just America stuff,
our blue jeans and music, but you got our banking system and you got wired into it.
So how America projects soft power is we don't have to invade you, we can just blacklist
you from the world financial system.
So like FATF is a great example of that.
It's a controlling body that does all the compliance and regulation.
Well, if you get on a FATF blacklist, it's like really hard for your regulated financial
vehicles to have correspondent bank relationships with the rest of the world.
So effectively you become a financial island,
and money can't get in, money can't get out,
and all your rich people are no longer rich
because their money doesn't do anything.
So we don't have to invade you,
we just put you on a blacklist, and then you're done.
So these transnational bodies, they've grown so powerful
that they literally can influence foreign policy,
and also domestic policy.
So you can go in and use them and say, hey, you know, you got to treat this ethnic group
a little better or this group of people should be allowed to vote or you need to change this
law or something.
If you don't change that law, you know, you're just not going to get credit anymore.
You can't borrow money.
So sorry.
Or, you know, all your debt or you're just going to collapse it and nobody will buy that
debt or, you know, actually you just can't travel anymore
Just cut your passports off or these types of things and so it's it's especially for smaller countries
It's not a small concern you're literally told what to do as the president of the country for these types of things
So every initiated bricks
Yeah, well Brexit was a component of that because that that was the European system in the UK and you know
It's still a mixed bag
We have a lab in Scotland for a long time
And so we kind of hear both sides of the politics the pro-brexit and the anti-brexit people
But that populist uprising did have that same sentiment
Why is it that I as a voter in the uk can say my opinion?
But then some european bureaucrat can override my opinion that I can't vote for
and I have no control over it.
Is this a democracy or not?
And so when you look at transnational body that comes in
and they have some say or control over your country,
no matter who you vote for the president,
no matter what you do, basically you're not in charge.
It's like Bain, like, do you feel in charge?
It's like, that's these transnational bodies.
They do these types of things.
Now, of course, in America, we don't mind
because we run these bodies.
It's one of our batteries included on the American empire.
It gives us the ability to project force.
And for the most part,
it does create stability inside the world
because you get standardization
and you know your money works everywhere and contract law.
And also if somebody gets kidnapped or ransomed or something
Then maybe just maybe like we'll have international coordination on law enforcement and these other things
It's a way to kind of solve problems without having to go to war all the time
We're having to send spies and kill people or these types of things
But on the other hand, it's a system that's right for abuse because if you can take over those those anchors of power
You can use those to benefit the people
that put you there, you see?
So it creates a shadow system of transnational governance
across the world as a whole.
And then also it creates very strong incentives
for people to try to opt out,
which is why you have competing systems,
like the BRICS system that Russia and China
and these others are trying to push and propagate through.
So these guys will say, oh, well, the American system is terrible and look how bad it is.
And to a certain extent, you can see the anger.
Like in Switzerland after 2022 when the Russians invaded Ukraine, the US government went to
Switzerland and said, the Russians are persona non grata,
get rid of all those Russian accounts
and all that Russian money.
So the Swiss complied.
And like 50 billion plus dollars left Switzerland,
very expensive for a small country.
So then the Swiss government says, okay,
we were good kids, so what do we get?
And we're like, go fuck yourself.
Give them nothing for that.
And so then the Swiss remember that.
They can't do anything about it right now,
but they remember it.
And then the next time China comes and says,
you know, is it really worth your time
being like so friendly and nice with the United States?
And in some cases, the country doesn't comply.
Like I remember I was in Abu Dhabi, I'll never forget this.
I was in Abu Dhabi and I was sitting eating dinner
and then suddenly I saw fighter jets fly overhead
and they were painting the Russian flag in the sky.
I said, what the hell is going on?
And it turned out Vladimir Putin was visiting Abu Dhabi that day and they gave him a hero's
triumph.
He comes in like a Roman general returning with the purple robes on for a triumph because
what happened was that just a few weeks before, the Treasury Secretary was there, the prior
Treasury Secretary, and they were threatening Abu Dhabi with sanctions
and all these things, the fattest blacklist
over having Russian money in Abu Dhabi.
And the King was very offended.
And so he upgraded Putin's reception from,
hey, you're a foreign head of state
to welcome hero of the people
just to fuck with the Americans.
Wow.
You know, and you can still find it on Twitter.
You can see the,
cause it was all big news item of Putin coming to Abu Dhabi
and these types of things.
Cause you know, they did the calculation
and they told the treasury secretary this.
They say, if I add up China, Russia,
Middle East and Africa,
that's twice the size of Europe and United States
in terms of GDP.
And if you look at the GDP growth of that block
versus the GDP growth of America and Europe,
it's growing much faster.
So if we're gonna pick a side,
we're gonna pick that side, you understand that?
And then they realize they overplayed their hand.
So that's the other danger of these transnational bodies.
If you abuse them and overuse them,
the resentment builds and you create a coalition of anger.
And then over time that forms into
another economic block and then eventually people opt out of the system and then you
lose the whole system as a whole.
So that's another reason why cryptocurrencies are so appealing because it's a reset.
How close are we to losing that system?
Well it depends on a variety of factors.
If a world war happens, it's a, and whoever wins gets the new system. So China, US, if that breaks out, Thucydides' trap, we'll figure it out.
If the dollar collapses, we lose the system.
We're at 37 trillion in national debt right now.
That's the stuff on the books, but then when you look at the long-term liabilities, it's
well over 50 trillion to 100 trillion, depending on how you count it.
And at some point, the interest on that's untenable.
In fact, at the current rate of interest,
we spend more on the interest on the debt
than the entire US military.
Just gives a sense of that.
And if we continue spending the way we do
within 10, 15 years, we'll spend more than
the US military, Medicare, social security,
and education combined on interest of the debt.
It's a very bad situation to be in.
And the thing is that we don't feel real interest rates
in our junk debt because we're the world
reserve currency.
And so we project that into the other countries first.
They get first hit, then we get second hit because of our status.
It creates a very strong incentive for them to de-dollarize and get off the dollar.
And it's a gradual thing, little by little.
And we see this Belt Road in China with the digital yuan.
They are slowly moving through and they don't just give you money, they give you an economic
system.
So, you adopt social credit, you adopt the digital yuan, you adopt the Chinese companies,
you adopt the Chinese infrastructure, and you de-dollarize in the process of doing that.
So, they have a 50-year plan and they just go country by country and they've taken all
of Central Asia, they're taking big chunks of Africa like Zambia and other things
like that. So as long as that continues there's an inevitability of a
de-dollarization of the world and then we have to pay real interest rates on
the debt, the money collapses and then that provokes a huge issue, you know, for
us. So if left to the own devices nothing else changes then probably around
the 2030s you'd be looking, then probably around the 2030s,
you'd be looking at that collapse.
Now, that said, never bet against America.
You know, because every time people said,
we're gonna be dead in the water,
then shit changes.
Some new leader comes in, some new policy comes in,
some new innovation comes in,
and really all it would take for us to get out of it
is just five and five.
5% GDP growth rate and 5% reduction in the budget
of the US government. Run that for 10 to 15 years
Cut the budget in half you double the economy and we can pay down all of our debt
It's not really a long time if you think about it when Bill Clinton left office
We were only at four and a half trillion and debt now
We're at 37 trillion and debt that wasn't a long time ago. Yeah, you know when you think about that
Yeah, and so things can change very quickly in a very negative direction or in a very
positive direction. But you have to have an adult conversation about things.
And the reason why people aren't willing to have an adult conversation, it goes
back to what blockchain is for, which is trust. You can't have an adult
conversation if you don't trust the person sitting across from you.
If you think that that person doesn't have
your best interest at heart,
if you think that person's intrinsically corrupt
and whatever they're proposing is through a lens
of something to steal something from you,
even if they have the best idea in the world,
you're not gonna say yes to that idea
because you just, you can't get there
on the trust side of things.
So the real reset is the trust reset
How do you get the social systems where whether you're a Democrat a Republican left or right?
You're one political persuasion of the other you trust that system. You say that system is okay
That is the space you can negotiate and then you can bring problems into the domain and objectively speaking
Is it sensible that we have 37 trillion in national debt?
No
Is it sensible that when we fight wars we lose them now?
Even though we spend more money than any country in the world on the military and we have the best warriors in the history of the world?
No, it's not sensible.
Is it sensible that we spend two to four times as much money on health care as our peers,
but we have a lower quality for that? No. Is it sensible that, you know, social security is basically a Ponzi scheme.
You're gonna pan it your whole life.
You're not gonna get anywhere near
what you paid into it back if you just invested it.
And there's a strong possibility when they means test it,
a lot of people will just be dropped out.
So they never get anything, even though they paid into it.
Probably not.
No.
Okay.
So we start getting some consensus
that these are not sensible things.
Notice we didn't say universal healthcare
or complete free market or this thing or that thing.
We just get an agreement that these are problems.
Then you can negotiate and start talking around that.
And because you have a negotiation from a position of trust,
everybody's working in the same direction
because they're trying to solve the same problem
and it's just a matter of compromises.
So that's the only way to solve it.
And until that's done, there's an inevitability of collapse.
And typically what happens is the collapsing empire tries to provoke a conflict to restore
itself.
And so that's what begins with a world war against emerging powers.
So we'll see what happens but it's a difficult time.
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The other thing that really causes some complication
is that we have too many exponential technologies.
So the 20th century was the introduction
of an exponential technology.
It's multiple ones.
The nuclear weapons were the first example of that.
Bombs were linear before that.
More explosive, bigger blast, linear scale.
With nukes, like a little bit, wow, it's big, a little bit more, oh my god, it's exponentially
larger.
And so the first atomic bomb was in the kilotons, and within just a decade, we were in the megatons,
thousands of times more destructive.
Look at Zarbamba.
It was 50 megatons, thousands of times more destructive. Look at Zarbamba, it was 50 megatons.
Hiroshima was like 30 or 40 kilotons
of destructive power.
So exponential growth meant that we had invented something
for the first time in human history
that could actually wipe out the entire species.
And we actually came ridiculously close once in 1962
and it was literally a first officer in a sub
who decided not to turn his key. And then again in the 80s, and it was literally a first officer in a sub
who decided not to turn his key.
And then again in the 80s,
and it was a lieutenant colonel
who was running a nuclear silo in Moscow,
and it was a computer software bug,
and it was telling him that we had launched weapons at Russia
and he was instructed to launch nuclear weapons at us,
and he wouldn't do it because he didn't want to end the world.
So like literally, like two people
were preventing the world from nuclear like literally like two people were
prevented the world from nuclear armageddon
just by themselves.
And in both cases they were harshly punished
by the Soviet system, which is just ironic.
But anyway, exponential technologies are very dangerous.
And then when you look at it,
now we have multiple exponential technologies
sneaking their way through.
You have synthetic biology.
We talked about a little earlier.
It can be used for many things.
We saw, like, some people think COVID was made in a lab.
Well, whether you believe it or not,
it's undeniably true that people are using
gain of function research to build diseases
that have a 50% mortality rate or 60% mortality rate.
And they just blithely pretend like that.
It's a good idea.
You've made something that if it ever got loose,
would kill three billion people. It's just. It's so foundationally unethical, but it's exponential because it's not a billion
people working on that. It's 10 guys in a lab working on something that has a consequence
at the scale of 3 billion. And it's the same when you look at artificial intelligence.
Is it 500 million people working all together? No, it's like OpenAI has a few thousand employees
and Anthropic has a few thousand employees
and Google's AI group has a few thousand people
and Microsoft's AI group has a few thousand people.
There's 800 million users for OpenAI.
So a few thousand people translate
to a scale of 800 million.
So our governance systems were not designed for this
and the world order was not designed for this.
This idea of such a profound asymmetry.
You can't have a few thousand people just do something,
and then somehow now that impacts a billion people.
Nobody consented to that asymmetrical relationship,
because it's always easy to go Jim Jones
and have a few thousand crazy people.
And then suddenly those few thousand crazy people
get to inflict upon the world their whole philosophy
and their ideas because of that consequence.
We have no governing system for exponential technology.
The blockchain is probably the only layer that can do it
because it's born of that.
But you need a regulating system for these
and it has to be global in nature
and everybody has to get along for it to work.
Well, if they can't trust each other
and they can't get along, how do they make a decision?
You want to solve climate change or whatever.
If you believe it, you don't believe it.
How do you sign a treaty if China is not gonna be part of it,
India is not gonna be part of it,
Russia is not gonna be part of it?
It's one global commons and that's one problem.
But then there's another problem like AI,
that's another problem. Then there's synthetic biology, that's another problem. Quantum computing, that's one problem. But then there's another problem like AI, that's another problem.
Then there's synthetic biology, that's another problem.
Quantum computing, that's another problem.
There's all these things you can use.
They're very dangerous if they're misused.
So global governments has to solve that as well.
And one way of doing it is create a transnational order,
one world government, they run everything
and they just control people in a dystopian
cloud swab way.
Another way is to try to decentralize it
and try to push these things into the commons
and have them jointly controlled
by as many people as possible.
Because you can even, for example, AI,
you can build a decentralized AI with blockchain.
You can have the inference,
like Bitcoin is held up with a supercomputer, right?
Well, you could build a different kind of computer
with graphics cards and create a super computer, right? Well, you could build a different kind of computer with graphics cards and create a distributed computer
that's more powerful than Microsoft Azure
or Amazon Web Services or any of these things,
but that's not owned by a company.
It's a digital commons,
and then you could put those rules in
for the alignment of the system
and the inference of the system.
And it's the very same rules that would guard
or a money system or a supply chain system
or a voting system or something like that.
So you could just have all that stuff in there.
And that's the magic of what we do.
So it's fun because just like when I was studying
Rob Paul's stuff in the early days,
I didn't know that that knowledge base
would be relevant for cryptocurrencies.
I didn't realize that what we were learning
in the blockchain cryptocurrency space is just as applicable for how would you regulate
and control an exponential technology or create a global governance system or these types
of things.
It turns out it's an emergent property.
It's something that you actually have to solve.
How was El Salvador dealing with the volatility of Bitcoin?
Well, that's a red herring.
If you're, oh, it's so volatile, it's like, yeah, but gold is volatile.
And we've had it as a money system
or a value system for 5,000 years.
Volatility is not a problem.
A problem is the lack of financial markets
to deal with the volatility.
You know, you always, in volatility,
you're gonna have winners and losers.
And if your preference as a merchant
or a holder is stability, what you want to do is
have a market that allows you to trade your upside to protect you from the downside.
Okay?
So I keep my buying power at this level and then you will take the upside and accept the
downside.
So for example, for a stock, you can buy options on both sides.
You can buy a caller, you can have a put,
and you can have a call option.
So if it goes to the moon, you have an exit strategy,
and if it goes to the falls, you have an exit,
and you stay within that balance.
So your losses and gains are basically bounded.
Now there has to be a counterparty who accepts that risk,
and there's counterparty risk for these types of things.
So really it's a question of how deep are the markets? How do you ensure things?
How do you manage counter-party risk? Why cryptocurrencies had such a hard go of things is they were not born of Wall Street.
So Wall Street is the ninja master of trading these things.
If you have a racehorse and you give it to a Wall Street guy,
If you have a racehorse and you give it to a Wall Street guy, he's going to take the dick, the testicles, the teeth, and turn them into structured financial products and sell it to
some guy in Saudi Arabia. Okay? This is just the thing Wall Street people do. They're addicted to
it. They just securitize and quantify and qualify as much as you can imagine. Because it wasn't born
of Wall Street, there were no guys in the room who had the ability to do that or the regulatory remit to do that
or markets to trade these types of things on.
This is why it's so important that the TradFi
and DeFi sides come together
because they do different things.
The DeFi side does the trust thing,
like I was just talking about,
but the TradFi thing does, let's build markets,
let's build liquidity, let's market make,
let's trade risk, let's ins liquidity, let's market make, let's trade risk, let's insure,
let's move capital around,
let's build structure upon structure upon structure
to deal with these things.
And the end consequence is,
as an interface to that marketplace,
you're in the driver's seat
to basically make a decision of what to do.
And so you can say, okay, well,
I'm not really comfortable with downside risk
above this amount, so if it falls this far
This other guy will take it from me and I'll make a deal with him that you know
I pay him X amount of dollars for that downside risk and
You know, maybe he wins. Maybe he loses but that's not my fucking problem. It's his problem
And then if it goes way up great and make good returns
We do this all the time like every time you step on a plane, it's insured.
And the aerospace, the airline companies,
they buy fuel with futures contracts.
So they can lock in the price
because they need predictability.
They can't run a business
if the price of jet fuel goes way up.
Like what if a war breaks out?
Like then suddenly United and Delta
and all these other guys,
they go from profitable companies
to in the red all the time.
So they need to lock in that price of fuel
for as long as they can.
So that's what a futures market does.
It gives you the ability to lock things in
and take delivery.
So these are the things that you do.
And, you know, these are the mechanisms.
But more broadly, it's different boats
from different floats.
For small businesses to mid-sized businesses,
even the big businesses,
what crypto is doing for them is it's giving them
more markets, more liquidity, and more optionality
on the value that they have.
So let's say you're a pharmaceutical company
and you're doing drug development,
you're doing some state of art amazing things,
but they're not valuable yet.
You have the patents, you have all these other things.
So what's your option for liquidity?
Because you got payroll, you got to pay your scientists,
you got to pay for the clinical trials,
you got to pay for all this stuff.
Now, if you get it right,
you're now a multi-billion dollar company.
Pfizer buys you tomorrow, congratulations.
But you have to wait 10 years to get it right.
So you have to go to a venture capitalist
and they're like, yeah, all right, well,
I'll give you some money.
Yeah, give me 30% of your company
and this and this and this and this.
And you see, all of a sudden you just get
like predatory user-ous rates.
And that's their lived experience.
Well, what if I could tokenize my intellectual property
and I could sell it almost like a micro IPO?
Now, all of a sudden,
a larger group of people can participate. almost like a micro IPO. Now all of a sudden, a larger group of people
can participate, I get a better deal.
So maybe instead of selling 30% of my company,
I sell 15% of the upside on the patent portfolio
or something like that.
So larger market, more investors, more fair transactions,
same for microfinance.
If you do like small scale loans in Africa
or other places, like we do loans in Kenya, Uganda,
and some of these markets are so predatory,
like 85% interest for loans that are-
85%?
85% interest for loans that are 90 days.
So you'll go and borrow like a hundred bucks,
have to pay 30 days, you know, 185 back.
It's just, it's so userous.
Why? Because they're very thin markets
and there's tons of middlemen and there's Forex risk.
Cause the local currency is always going up and down
and all these other things.
Well, you make it decentralized,
you bring a lot of people in,
then suddenly it falls from 85% to 18%
and your default rates go down.
In those jurisdictions, the NPL rate can be,
the non-performing loan rate can be as high as 40%.
So we did a product that we did out there, the interest rate fell to 18% and the non-performing
loan rate fell to 2%.
So it was still a great return, but it's life changing for the people there.
And the delta was liquidity.
So basically a larger market, more eyeballs, more people that are involved in these types
of things, syndication.
So that's really how you solve volatility,
is that you create markets for it.
And then you say for the people on that side,
it's all about, I want more markets,
I want more liquidity, I want more connection points,
more people.
And then once you have it,
it's like the free market takes over,
like people are gonna figure it out.
You know, certain music star that I'm associated with,
that, you know, shall remain nameless,
he bought a record label that was deeply personal to him
because of his life history.
And he's thinking around how does he tokenize
the intellectual property there,
all of the IP behind those records.
Because it's really hard in practice
to get liquidity on music IP.
You have five or six big companies
that control the IP and they're like cartels
and they set the market.
So they set the prices.
But what if you can just go like sell part of it
to your fans?
They like you, you have a direct relationship with them.
Maybe you get like a five or 10X over that.
It's like an IPO of you as a person.
And the minute you do that, that cartel breaks up.
Those middlemen get disintermediated
and then every other artist can do that.
Taylor Swift can do it, or Country Star can do it.
Garth Brooks can sell his IP or whatever.
You see, so the artist now can monetize
the direct relationship that they have
with the exact same concept as running a smart contract
on Cardano, or the exact same concept
as running an election.
It's the same infrastructure.
That's why the tokens are so valuable
because they're universal.
They're like a financial stem cell.
They can become a heart cell or a brain cell
or a kidney cell, or they can become a commodity
or a security or intellectual property
or an NFT or a game token or something like that.
It's the exact same thing.
It's the exact same concept.
How was it co-founding Ethereum?
That one was tough. People ask me all the time because I run a venture capital firm
and I advise young entrepreneurs all the time. I say there's three rules that I got out of
Ethereum. First off, you can't have eight founders. There were eight founders with Ethereum,
all from different weeks of life.
We have a Romanian guy, an Israeli guy, a Canadian guy, a Wall Street guy who was also
Canadian but also lived in Jamaica.
Vitalik, obviously, is a Russian guy, and there's me, the Colorado-Wyoming-Hawaii boy,
right?
And there's others.
And we all had radically different ideas and philosophies, and we were unified on this
idea that we want a programmability with a blockchain.
It's kind of like when JavaScript came to the web browser.
Before that happened,
you just had pretty pictures and pretty websites.
But when JavaScript came, you had programmability,
so then you have Facebook and Amazon and YouTube
and these things.
You can build beautiful, rich experiences.
Well, Bitcoin has no programmability until recently.
So what does that mean?
It's like you just move Bitcoins around, that's all you can do. It's a very simple network. But then when you have programmability until recently. So what does that mean? It's like you just move Bitcoins around,
that's all you can do.
It's a very simple network.
But then we have programmability,
you have a programming language,
so you can just do anything you want.
You can create decentralized exchanges
and voting systems and all these other things.
So we all said, this is a really good idea.
So that was the first level of agreement.
But then as we started it, as the months went on,
we had radically different visions of what would make
that idea safe, effective, governable, and scalable,
and all these other characteristics.
And then naturally it drifted.
And so Vitalik was the primary founder.
He came up with the initial idea.
So ultimately he had to make a decision.
We call it the crypto Google or crypto Mozilla decision.
So the crypto Google is like the a for-profit entity that builds not-for-profit
The open source stuff stuff that you give away Google does dart and go and all this other
But it's for-profit company with equity and founders and these types of things or Mozilla. It's like a not-for-profit. It's like a foundation
You know, there's no owners. There's no shareholders
So Vitalik chose the not-for-profit route, and then all the people that wanted to go
the for-profit route, they kind of got pushed out.
So Joe Lubin got pushed out and created Consensus, and Amir Shatriq got pushed out, and Anthony
Di Iorio got pushed out and created his own company called Decentral.
I got pushed out, and I created Input Output.
And the technology people were all that were left.
But then he learned that it's even amongst technology people, very hard to get them to
agree.
So Gavin Wood, who was like the CTO of Ethereum, he left and created his own competing product
called Polkadot and did his thing.
So there's only one founder left out of the eights, Vitalik.
Stud a good job.
It's gone from nothing to a $300 billion ecosystem and millions and millions of users and a lot
of good things.
And they really enjoy their first mover advantage and they solve hard problems.
And Gavin did a good job with Polkadot.
We did Cardano.
It's a $20 billion ecosystem, millions of people.
So you find that in business and in life.
But you can't get into a business relationship if there is not a philosophical agreement
on where to go and what to do. You can't get into a business relationship if there's not a philosophical agreement on where to go and what to do,
you can't get into a business relationship
if there's too many decision makers.
You can't have eight commanding officers.
You have to have a chain of command
and you have to have a clear way of sorting them out.
And third, you have to have good founders agreements
because people have a shelf life in businesses.
And some people are exceptional as early founders
and they're really good to do the first six months
to a year, but then you outgrow them.
And other people are exceptional for when you're scaling
and you're growing from 300 people to 300,000 people.
And some people are really good along the whole journey.
So a great example would be Larry Page.
He was in and out and in and out.
So Larry Page started Google with Sergey Brin,
and when they got to around 300 people,
they're like Larry needs adult supervision.
So they brought in Eric Schmidt.
And he grew Google from a 300 person company
and took over the CEO role to a 28,000 person company.
And they Googled the Google it is today.
Larry wasn't sitting on his thumbs,
you know, he was still around.
He was learning, he was growing as a person.
And he took his company back,
they pushed out Eric Schmidt.
And he came back in as the CEO and ran the company again.
And then eventually he's like,
you know, I want to do big things.
So he restructured Google and created Alphabet,
and Alphabet's this portfolio
of all these cool, interesting things,
like anti-aging and genomic stuff with Calico,
and it's got Google in the portfolio
and all this other stuff.
And they now have a professional CEO
at Google, Saunders Machaie.
So that's the nature of things, you have to know yourself
and you have to know that, and Ethereum was very stressful
because we were all very young, I think I was 25 or 26
at the time, and we knew we had a winner.
Just you look at it and you say, this is going to be big,
it's gonna be a massive thing, this is gonna make
so much money and it's gonna change everything
and it's gonna change the paradigm.
But we didn't know what to do with that.
It's like discovering alien technology or something.
It's like it's a big deal,
but like what the fuck do those runes mean?
What the hell does this thing look like?
It's crazy.
So we did our best to interpret the alien runes
and the alien technology and I was kicked out early
and for the best for me and best for them.
And other people were able to ride a little longer
on the bull, but they got knocked off too.
And now there's just one guy left
and he's kind of doing his thing.
What is the concept of Ethereum?
Oh, it's like JavaScript to the web browser.
So it's just like Bitcoin in that it's a blockchain
and it has transactions and assets.
The difference is the transactions are programmable.
So you have a programming language
so you can encode into the transactions
any terms and conditions you want.
Okay.
So you can turn them into a voting system
or this thing or that thing.
So it really becomes that financial stem cell.
So it's the next generation.
I usually term cryptocurrencies in terms of generations.
And so the first generation was Bitcoin
and usually that's the problem you're trying to solve.
So the Bitcoin, it was decentralization.
There were money systems online before Bitcoin,
but they always relied on a central authority.
So there was some guy that had the vouch for the ledger
and say, this is a ledger, like DigiCash,
David Choms business in the nineties is an example of that.
Then Bitcoin comes around, you don't need a single entity.
You have a decentralized ledger, but it's simple.
It just has Bitcoin.
You know, it just push Bitcoins around.
You can't do pull payments.
You can't do programmable things with it.
You know, you can't issue assets.
It's only Bitcoin, it's just Bitcoin.
Then Ethereum comes around, the second generation,
the problem you're trying to solve there is generality.
You wanna go from just a single asset ledger
that's fixed function to a multi-asset ledger
so you can issue your own tokens, your own things
in that same infrastructure and they're programmable
so you can do whatever you want with them.
And that was a huge revolution when it came out,
went, oh my God, cryptocurrencies aren't just
a speculative asset, they're not just like a value holder,
like this is a social system,
I can do economics as a political system.
The challenge of that generation is that it doesn't scale,
it's not interoperable, that wifi moment,
it doesn't talk to other stuff,
and also you can't govern it.
You know, how do you upgrade it?
It's very complicated, so you have to always be tinkering
and tuning and fucking with it.
And we as consumers, we're used to custodians behind things.
So like Apple to the iPhone or Microsoft to Windows.
So you always think like,
who's gonna be accountable for the next version of Windows
and all the features?
Well, Microsoft will do that.
Who's gonna build the next iPhone?
Well, Apple will figure that out.
Who's gonna build the next version of Ethereum?
Ethereum foundation? Well, that doesn't sound out. Who's gonna build the next version of Ethereum? Ethereum foundation?
Well, that doesn't sound very decentralized.
Now does it?
If one group of guys get to decide
how everything is gonna go
for this thing that's decentralized.
Okay, well if not then, then who?
How do you build a decentralized product function?
How do you build a decentralized upgrade function?
So these problems became apparent around 2016, 2015,
that timeframe, and we're like, we need a new generation.
We need fundamentally different technology
for upgradability, interoperability, and also scalability.
The scalability thing is very bad in cryptocurrencies.
It's one of those cake and eat it two things.
So inclusive accountability, we mentioned
with voting earlier, that is awesome,
but super fucking expensive.
If your requirement is that you have a full node,
that you're able to self-verify
every single thing in the system,
that only works as long as the set of things
that you have to go through to verify is capped.
Because like, could you imagine trying to verify
the state of the Googleplex?
That's like millions of computers running Google's backend
with billions of users and Yodabytes of data
in that system.
How could you personally do that on your home computer?
It's not possible.
So obviously that's not a system that seems to be amenable
to inclusive accountability natively.
So the problem is that the way blockchains work
with that property, they're replicated,
they have like a limitation of how much they can scale to,
how many people can use it concurrently,
how much data can be inside the system,
how many transactions the system can process.
You want it instead to be a system
that as people join the system,
they add resources to the system.
So you never run out of resources, like a potluck.
Instead of a dinner where you show up
and there's a fixed amount of food,
if a potluck, everybody shows up with food.
So no matter how many guests you have,
your set of food grows, and so if it's a good potluck,
it should grow with the guests,
so you never run out of food.
You always have enough food to feed everybody
inside that situation.
So there are protocols to do this
that are scalable by design,
like BitTorrent is a great example of that.
So, you know, more people that are downloading a video,
paradoxically, the faster the download happens
because those people share and download at the same time.
So if it's an unpopular thing, like, I don't know,
Pee-wees Playhouse or some shit like that,
nobody's watching it,
it takes a really long time to download.
But it's Game of Thrones or something,
like especially the early seasons that were good, then you get that quickly, you know, and because a lot of time to download. If it's Game of Thrones or something, especially the early seasons that were good, then you
get that quickly, you know, because a lot of people are downloading.
So you like your cryptocurrency protocol, it'd be the same way.
If I have a million users, it's fast.
If I have 10 million users, it's blazingly fast.
If I have 100 million users, it's one of the fastest things on the planet because they
produce more than they consume.
Ethereum doesn't do that.
And they're trying to figure out ways to do that, to upgrade to the next generation.
So the third generation does that.
Scalability, interoperability, and governance.
And they have those things.
And they're actually creating a fourth generation now.
Because there's not enough work to do, right?
And the fourth generation is the regulated side of the world.
So how do you get identity back in?
And how do you get privacy in these things?
Because blockchains are public.
So everything in them, everybody can see.
That's great for land records
and that's great for open financial systems,
but maybe just maybe our search history
and what we bought on Amazon
and maybe like where we spend our money
is probably not, should be public.
We should keep that private.
So how do you add privacy back in,
but preserve those properties that it has?
Immutability and auditability and so forth.
And so that's where the zero knowledge proofs come in.
They have to come in.
So the third generation is nearly over.
We have scalable protocols, interoperability
is getting sorted out and governance.
That's all the voting stuff we were talking about.
And now we're in that fourth generation.
We're starting to flirt with that.
And that's the next wave of cryptocurrencies
that have privacy and identity,
and that brings the banking industry in,
and Wall Street in, and regulators in, and governments in.
And what's great is they always include the features
of the prior generations.
So Ethereum has a blockchain like Bitcoin does,
and a third generation thing has everything Ethereum does.
It has smart contracts. So if you And a third generation thing has everything Ethereum does. It has smart contracts.
So if you have a fourth generation, it's a third, second, first generation as well.
It's like a telescope that comes through.
How long was it after you left Ethereum that you started Input Output?
I had the game plan for Ethereum and so I wanted to do it.
So I was like, fuck it, I'm just going to do it myself.
So I started Input Output about six months after I got booted out.
And so I could, I just like had to figure out how to start something, you know?
And so there's these guys in Japan who are like, well, we still like you and we still
want you, so why don't you come into Japan?
So it's like you're a celebrity, you're not making life good in Hollywood.
You go become like a B-list celebrity in Japan and star in Japanese movies. And I'd never been to Japan before
and that was fucking wild, man.
I was in Osaka and Osaka is like the gangster mean area
of Japan and everybody's a little rough in Osaka,
and it's where all the movies are.
So I moved there for a while and I had to basically learn
how to do business in Japan, how to raise money in Japan.
We raised $72 million in Japan.
At the time it was the largest ICO that was ever done.
Theory was 18 million.
And then I had to build a company.
Like I had to build an army of engineers and scientists
and all this other stuff.
And I was still in my 20s and I had absolutely
no experience in these things.
So it was pretty wild ride, you know?
And this is crypto circa 2015. So it was a pretty wild ride, you know, and this is crypto circa 2015, so it was still
a very colorful time.
There was a lot of larger than life people, like John McAfee had just come into the cryptocurrency
space and my frame of reference for John McAfee was like, wasn't it that crazy guy who shot
his neighbor and then escaped into Guatemala and was blogging real time while he was doing it.
And he's probably a drug addict.
Yeah, but he's really cool.
It's like, all right, let's go party with that guy.
That sounds fun.
And we did in Malta, which was awesome.
But anyway, there's like these amazing stories
and just meet all these just super crazy people.
And then also there was all these adjacent industries
to crypto that were kind of shady,
like DMM for example is a big Japanese content producer,
but also they probably control all the pornography in Japan.
And they're like, yeah, we really love crypto.
And I was like, okay, I don't really want the porn money,
but yeah, there's a lot of it.
So there was all these like conundrums
of like who do you partner with and how do you partner with them in a way that doesn't have
Horrific blowback at some arbitrary point in the future
So those those were fun days though
and I and I kind of like lived in Osaka and then I would ping pong to Hong Kong and back because
There was a huge crypto movement that was in Hong Kong at that time and then when the Chinese government cracked down on it
They moved to Singapore. So they went from Japan to Singapore.
And then for a while it was in South Korea, and they got super big there.
And then exchanges got hacked, and the South Korean government was, oh, we've got to shut
this all down.
So they all fled to Singapore.
Now they've all gone to the Middle East.
So everybody's in Dubai now and speaks Arabic instead of Chinese or Korean.
But it's just wild.
But what we were able to do is we were the first to market to actually introduce the concept of peer review
at scale as an entrepreneur.
You know, it exists in academia,
but nobody thought it was a valid business strategy
to go and like hire scientists and do rigorous research
and write formal papers and go through the peer review
process and all these things
They're like dude, that's that'll set you behind by years and years and years. I said I have plenty of time They're like why I said, well, here's what's gonna happen. These guys are like Icarus
They're gonna fly really really close to the Sun
Their wings are gonna melt off and then they're gonna fall and die and we were right in many cases
Like all these cryptocurrencies would launch with brilliant ideas and they worked until they didn't
Eos worked until it didn't Luna worked until it didn't. EOS worked until it didn't.
Luna worked until it didn't.
And the falls got worse and worse every time.
So, you know, fail and a few hundred million dollars
would be lost, and then fail, and it's like $4 billion.
Luna, fail, $40 billion get lost, you know?
So, that was the other side,
is that there was this perverse incentive
in the economic structuring
of running cryptocurrency companies where you were incentivized to launch as fast as possible and
Make it somebody else's problem when the system didn't work
So what we did with Cardano is we just said, you know, we'll just ignore all that
We'll just pretend like the rest of the world doesn't exist
We'll be on the Cardano Island in Japan and we'll just go and build this thing that's designed to run forever and never fail.
And so when we launched Cardano in 2017,
it's been running 24 hours a day, seven days a week
for eight years and never been hacked and never gone down.
Wow.
And so I was really proud of that.
Now we had to do a lot of crazy shit to make that happen.
Like we use these weird programming languages
like Haskell that like maybe 50 guys
and the whole fucking world actually use and care about.
And they're just thoroughly unpleasant people. that like maybe 50 guys in the whole fucking world actually use and care about.
You know, they're just thoroughly unpleasant people.
And we had to invent a lot of new technology
and in many cases it's like,
okay, I guess we just have to like
write our own programming language
or write our own thing or write this thing and thing.
So we ended up developing this reputation
for this thing that everybody acknowledges exists,
but nobody really knows how it works.
It's just over there.
It's like Cardano, it's here,
don't touch it, don't think about it.
And then what I've had to do with my second act
in the cryptocurrency space is I've gotten a little bit older
is kind of somehow move that strange thing
and make it get into the real space
and normalize it and everything.
So I'm coming back from Japan being a star
and going back to Hollywood
and seeing if I can find a way to be an A-lister.
And it's been a journey.
And what's crazy is over the last 10 years,
I've gone to 75 countries.
I keep a board in my office and you put the little pins
of different places you've gone.
And I counted them the other day and I said,
I hit 75, so I'm most at 100.
Wow.
And it just, the only continent I haven't been to
is Antarctica. And it's so wild only continent I haven't been to is Antarctica, you know?
And it's so wild, like in any given three month period,
I'm probably gonna set foot on three to four continents,
you know, I'll be in Africa and Europe or Asia
or South America or North America
and just travel, travel, travel.
And what's so surreal about it is everywhere I go,
I get recognized by people.
Like I was in Mongolia, okay? And this one blew my mind. I was in Mongolia. I was out in the
Gobi desert and there's like this camel herder and he, and uh, he comes up to me and talks
to my translator and I said, what's the issue? He just said, oh, he wants to take your picture.
It's like, why? He's like, oh, he's like ADA holder. The fuck is selling ADA out here
in goddamn Gobi desert? I mean like like, we got some good marketing, man.
This is nuts.
You know, so that's fun, but it's also a little weird because there's asymmetries now.
If you're recognized everywhere you go, you don't start at zero.
You know, they already have an impression, either positive or negative, and the markets
are doing well.
It's very positive.
The markets aren't doing well. It's very negative.
So you got to be a little careful with it.
Lot of stuff there.
Yeah.
Lot of stuff.
Let's talk, let's switch it up a little bit.
Let's talk about the, what was it you were, you were looking for solar.
All the alien stuff. Yeah. Let's. All the alien stuff.
Yeah, let's talk about the alien stuff.
Oh God, people love aliens.
All right, so I watched Avi Loeb on Joe Rogan.
He was talking about Muamua,
which is like this cigar-shaped alien vessel thingy,
thingamabob that doesn't seem to be from our solar system
and it doesn't seem to be natural.
And I was like, wow, this Avi guy is really cool.
And he had something called the Galileo program.
And so I reached out to Avi and I said,
hey, you know, I'm a big fan and, you know,
I heard that you guys are doing some interesting stuff.
Is there anything that I could help you with?
And Avi's like, well, we've been tracking
this one heavenly body, this meteorite
that hit earth in 2014,
and we think it's from a different solar system
because we did all the mathematical calculations
and we figured out where it landed, roughly speaking,
and we think there might be a chance that it's not natural.
I was like, oh, that's interesting.
I said, where is it?
And they said, well, you know,
we got some data from the Air Force,
but they won't give us the right resolution,
but we have enough resolution
that we think it's like roughly speaking 50 miles
off the coast of Papua New Guinea.
I'm like, okay, so what do you wanna do?
And he's like, well, we wanna set up a sea salvage
operation and go and find it.
And he's like, you wanna be part of it?
I'm like, do I?
Fucking sea salvage operation off the coast
of Papua New Guinea, this is gonna be interesting, all right.
So it was like a heist movie.
We had like a symbol, this team of people
and we had this weirdo Air Force guy that went with us
and then we had this old sea captain
who was like 87 years old named Art Wright
who was like the Navy's find it guy.
He found like Russian nuclear subs
and all these other things.
And he fought in Vietnam as like a captain
and in Laos and all these other things.
So you know, he's just seeing some horrible shit
his entire life, as crusty as hell.
And then we had this guy from New Zealand,
whose name will come to me in a second.
And he was like a famous submarine diver,
and he was good friends with James Cameron,
and he got to the Titanic a dozen times
and all these things.
So it was a really eclectic crew of people.
And I put in the money and a Netflix crew came down
and they actually shot a documentary
while we were down there and they're still working on it.
So we also had a documentary crew
that was led by a really unique director, who's special.
And obviously Avi himself and all the Harvard scientists.
And we got on this ship called the Silver Star.
So we planned out the whole expedition
and we flew out on my jet to Manus Island.
And then we took off.
And what we had to do is we designed this sled with magnets on it, and basically we had it
fall behind the ship and sink all the way to the seafloor, 6,000 feet down, and then we dragged it.
It's kind of like space balls when they're combing the desert, you know? They're out there,
so you just drag the sled behind the ship
for eight hours and you bring the sled up
in a very dramatic way.
And then you take the sled off
and then we had to clean the magnets off
to see if we can find fragments
from the meteorite that was there.
And we did this for two weeks.
And it almost became like a horror movie
because we were like tightly confined in the ship.
And because of the schedule,
we had a polyphasic sleep schedule.
We were running 24 hours a day to save money.
Nobody was sleeping properly.
And it was very high stress and things kept breaking
and things kept going wrong.
And like the experienced sailors like Art,
he would be a super stoic guy.
Like every morning go down at 5 a.m.
talking morning, Captain, morning.
And I was like, I heard you were a rowing champion.
And you know, at 87, like how do you do that?
And they all died.
I mean, it's like, he's a man of few words, Art.
And, but then, you know, Avi,
he decided to stop sleeping in his cabin
and sleeping instead in the common areas.
And then, oh God, we nearly killed him
because he kept turning off the air conditioner.
It was like 120 degrees with the humidity
because we're right in the equator,
and it's the middle of fucking summer.
And for some reason, I don't know why,
in the common area, which is the only place
we can hang out on this ship,
anytime he was working his laptop,
he would turn off the AC,
and it would get just unbearably hot inside the area.
So we'd go and turn it back on, then he would turn it off,
turn it back on, then he would turn it off.
And like the first few days, ha ha ha, we're all fine.
After about two weeks on a ship, not sleeping properly,
you know, that motion and everything,
we're like, do you think the world would miss Avi Loeb
if he fell off the ship, you know?
But anyway, he was a good man.
And what we ended up finding, because after we processed all the ship, you know? But anyway, he was a good man. And what we ended up finding,
because after we processed all the samples, we sent them over to Harvard and they analyzed them,
that we found these spirals that are from a different solar system. So after analyzing them,
they have about 5,000 times the concentration of beryllium, lanthanum, and uranium. And so
what we think happened was that there was a planet
that smashed into something and it broke open
and its core was violently ejected.
And then it traveled for a billion years
into interstellar space and then it ended up
hitting the earth.
Wow.
Which is the chance of that is like so infinitesimally small.
And we wrote a paper about it and it got published
and they wanna do another expedition
because now that they found those fragments,
they think they know where the big pieces are.
And if you find a big piece,
you can use different types of analysis
to be able to actually definitively know
what solar system that it actually came from.
But because when these things fall,
they kind of like the outer skin melts
and as it melts, they drop down and they form spheres
and then they sink to the bottom of the sea and they just sit in the abyssal terrain forever.
But I think it's the first exosolar thing
ever recovered from the sea floor.
So I was really proud of that.
We helped design this sled and did all these things.
And we actually designed two sleds
and one of them that I designed they didn't use.
And then the other one with the magnets they ended up using.
The one that I helped design was a sleuth box
because I used to gold pan
and I used to gold pan
and I used to do the sleuthing for gold on river beds.
And what you do is you have these riffles in it
and it takes advantage of the density mismatch
between the sediments and the gold.
And so you're saying, well, if it's alien technology
or it's like a heavy iron or something like that
from a meteorite, it's probably really heavy.
It's pretty dense.
So if that material is really strong and really dense,
then it's going to be much easier to sort it out
from sand that's on the seabed, right?
And so if you use a sleuth box, just like gold panning,
you should be able to filter it out.
The problem is that we tested it off the West Coast
of the United States, like right off Washington state,
because that's where the guys who designed everything was.
And that was a radically different seabed
than Papua New Guinea.
So it kept getting clogged up, and we couldn't end up using it.
We were worried, actually, that we were going to break our line,
because we had this giant spool in the back,
and it has to have enough rope to go down 6,000 feet
and also then drag this thing behind the boat.
And we were like, man, that's probably going to break
with some snapback and kill somebody.
We should probably not do that.
So we ended up just using the magnetic sled instead.
But we had a lot of fun with it.
Like, you know, the thing, you know,
where they had that soundtrack for it,
you know, dun dun dun dun.
So we made a little video on Twitter
of like the sled coming up in the middle of the night
and like the thing song theme there.
Cause we say, hey, you know,
it could be alien shit.
And we never told Avi this, but my security detail and I,
we said, look, if we actually find something alien,
we had a whole protocol for how we were gonna secure that
and take it off the ship and take it to an undisclosed
location to decide what to do with it.
And only later did we tell Avi that we had it,
we called it the touchdown protocol. And these were all like cream berets that were with me and
I didn't have a seal at that time but I really wish I had some Navy guys because
the berets didn't do as well on the boat as Billy would have done.
What do you think of all this alien stuff in the news these anti-gravity propulsion
systems what do you think?
Well, you know, it's hard to know what's true anymore
because it could be a false flag thing
where they're doing it to distract people
or a propaganda thing,
or it maybe is it's legit UAPs
and they actually have these capabilities.
Certainly the tapes are compelling, you know,
you study aerospace engineering,
it's like, it's not possible to do the maneuvers
that you're seeing with conventional propulsion.
So there's some fundamental difference here
with these things.
And if you're an alien race,
you gotta think about what would they do?
They would send robots, like just like we would,
we would send drones to a place.
And so if you have it, you know,
you would first hide them in the sea
because no one will discover them there
and 70% of the earth is sea.
So it's the obvious hiding spot to do it.
And then, you would use them to observe things
of significance.
So observe nuclear weapons, observe the great powers,
observe events, and then there would be some period
that you would transmit information back.
So it makes sense from you know, from a
common sense framework that, you know, if there was an extraterrestrial surveilling
the United States, that would be the approach that they would take. And then
the other thing you'd like to understand is the capabilities of the species. Like,
can you turn their nuclear weapons on and off? There's been some reports of
issues like power outages at silos and things like that. And you'd also like to
take samples, you know, you'd like to understand what those species are
and understand if they're a threat or friendly
or how they operate and what they do.
So is it plausible?
Of course, the challenge is,
why is it not disclosed at this point if they do exist?
What is the reason the government won't tell us
the whole truth if they're fully aware of that truth?
Either because the truth is horrifying and there's really bad things that are happening or they don't know in which case they're actually being honest
And they're sharing what they do have, you know, it stands what they think they can't determine as an enemy capability versus what we have
Or it doesn't exist and they're actually doing this as a false flag thing to try to mess with us
for some reason, to distract us from some other thing.
Why would they be doing that?
Who knows?
It's like trade craft, right?
You pay attention to the left hand
while the right hand's sliding your back pocket.
So you always do things in a certain way,
in a certain structure based upon what your goals are.
They could have killed Bin Laden with a JDAMP and they'd just taken DNA samples. Instead, they had a daring raid, you know, it was a Neptune spear and they sent special forces in,
and a very, very dangerous mission that happened to be time to happen exactly when Obama was at
the White House Correspondents' Dinner, when all of the press happened to be in Washington, D.C.
And the end result was exactly the same. It was a kill mission. It was not a capture mission.
So why do it that way? I don't know. Maybe the president had other objectives other than just killing a target, you know, and so
politicians do things and governments do things all the time to distract people and say things and
if one distraction is not working,
then perhaps another distraction is going to work.
The other thing is that there's a lot
of weird top-shelf physics that we're starting
to discover in the academic world.
Like they froze light the other day.
Now I guess light's a solid, who the fuck knew?
What do you mean they froze light?
It's crazy, right?
God knows how it works.
And they're doing it for memory modules
for optical quantum computers
and using crystals like freeze light.
And then they have time crystals
and they have all this other crazy shit
that they're coming up with.
It's like the physics are so insane.
So we're discovering things that are kind of like
bending our conception of reality,
whether it be quantum teleportation
or any of these things. What is quantum teleportation or any of these things.
What is quantum teleportation?
It's basically where you move without going through a medium information from one point
to another point.
It seems to be faster than the speed of light.
Some physicists listening to this will cringe and say, well, actually.
But basically, you can move a message from A to B and it doesn't go through a medium.
They just entangle.
So can quantum entanglement? Yeah, they entangle and a message comes through.
And so you have these capabilities,
you have these things here
and they're beyond the realm of normal understanding,
meaning that you have to have a PhD in physics
and even in just discussing them,
you kind of get your conception wrong.
Like my description of quantum computers with the library
is kind of sort of right,
but there's some nuances about how interference works
and entanglement works.
But it's right enough that you're 90% of the way there.
We're not even 90% of the way there
when you talk about these top shelf new physics things.
Well, what if there are secret research labs
that have been very focused in thinking
about these top shelf things for 20, 30, 40, 50 years.
They're going to be far ahead of the mainstream,
in which case they'll have things that look like magic.
Maybe they figure out anti-gravity,
which case propulsion works totally different.
Maybe they figure out some new physics we're not aware of
and they're testing these types of things.
So would you just admit that we have this a massive advantage against our near powers?
Or would you then invent a narrative
that aliens are stalking us?
It's a fog of war.
So that could be a thing.
It's just kind of like all the drones running around
the other day in New Jersey and all these other places
right after Trump won.
Who the hell knows?
We still haven't really gotten a good explanation
for all this, you know?
So anyways, like, did somebody lose a nuke
and they're flying him at night
to look for background radiation?
I mean, like, there's like dirty bomb rumors
and all this other stuff,
and everybody had an opinion about it, you know,
and who the hell knows what the real story was.
So you see stuff like that.
Where it's meaningful is if something has actually recovered
and we actually get to analyze it,
that's what I care about.
Like if I see some high entropy alloy
or some exotic material like metallic hydrogen
or something like that that we can't make
and we don't understand how to make at scale,
we have that, then that's meaningful
because now we can use that,
we can analyze that, we can backward engineer it and perhaps then gain something of value
We can't really do anything with these raw videos that we see we can't really do anything with base speculation
you know and
This this is why like consciousness is so interesting too
I mean it's it's it's a parallel to aliens in many ways
So consciousness is like this thing
that everybody has an opinion on
and there's all these things
like integrated information theory and panpsychism
and other concepts where you're like,
well, is consciousness just an emergent property
of your brain cells working and doing things
and it's completely encapsulated within the brain?
Or is your mind more like an antenna
and consciousness comes from some global commons?
And so you people take psychedelics, they're like, well, I'm seeing the same things on DMT as these guys over here,
and we're both sharing an altered state of consciousness.
We're not imagining it because I never talked to them beforehand.
So why did he see the same thing I saw, the whole DMT-L thing?
But if consciousness is kind of like a global thing and you're changing your state of consciousness,
you're retuning your antenna to a different frequency, you're seeing something now, right?
Okay, so maybe consciousness works this way, or maybe it's just an emergent property of
the brain and it's completely encapsulated there and that is what it is.
What do you think?
Well, you know, there's compelling evidence for consciousness being in the panpsychism
side and if that's the case, it explains remote viewing, it explains telepathy, it explains all the things.
Like there's this thing I saw on YouTube
that a friend of mine, the Neural Meditation Institute,
we did some work with him years ago, Dr. Jeffrey Turant,
where he did these studies with nonverbal autistic kids.
And they basically had so bonded to their caregivers,
they had basically a telepathic bond with their caregivers.
So they actually tested it. So what they would do is the caregiver
would look at a number and the kid would be in front of them and then the
kid would have an iPad or something like that and as the caregiver looks at the
number, the kid would type the number into the iPad. And they did round after
round after round and it's just incredible to see these things. And as
soon as I saw it, I called Trent and said,, what, Jeff, what the hell's going on?
He's like, yeah, it just blew my mind.
So there's all these YouTube videos
where you can actually see the kids
doing this type of thing.
Well, that makes no sense if consciousness
is an emergent property of just the brain.
But it makes a lot of sense if panpsychism
has something to do with it,
because then you have to have some sort of mechanism
for the brain to communicate that we don't know.
And there's a wonderful physicist named Roger Penrose
who came up with this Orch theory,
this idea that these microtribules in the brain
are like a quantum computer.
And if that's the case, you could do quantum entanglement.
And so you can entangle with people
and you can entangle with like a different consciousness.
So if you can figure out that code,
well then you can transmit information.
So then suddenly telepathy makes sense
and remote viewing makes sense
and all these mystical things
that we've been talking about for years
and psychedelic people talk about,
that all fits in there saying,
well, we're just retuning your antenna,
your microtubules and tuning that computer
to now have the ability to connect better to other things.
So you see different things and information can transfer these different things.
So maybe that's true, maybe it's not true.
It also explains why it's so hard to prove it exists because if it's quantum entanglement
it doesn't travel through a medium.
So there's no electromagnetic radiation or anything.
So these like these James Randys professional skeptics guys, when they put you in a room
and they say, well, there's no signals coming out.
So what's the mechanism of action of the telepathy?
Well, if it's quantum entanglement, you'll never see it
because it's over an arbitrary distance
and it's basically instant.
It's basically faster than light.
So there's a great books,
like one is Irreducible from Frederico Fagin
and he was the inventor of the microprocessor
that talks about this.
And there's, there's dozens of others
that kind of float around
where they're kind of exploring the art of the possible.
And it was a big scientific taboo.
Everybody was so damn mechanistic and scientism.
They're like, if I can't see it, it doesn't exist to me.
But now people are starting to reevaluate things and say,
well, okay, let's imagine if this was possible,
what would then have to be true?
And then how do we test it?
Like, here's something I'm gonna do.
I invested in this company called Immortal,
and they built these amazing chambers that are multimodal.
It's almost like a tanning bed, you lay in it,
and it's got pulsed electromagnetic fields,
and it's got red light, and it's got fiber acoustic,
and it's got molecular hydrogen, and it's got sonic light and it's got fiber acoustic and it's got molecular hydrogen and it's got sonic,
all this cool stuff.
And the guys who started it are like really into
some of these out there ideas, including remote viewing.
And so I said, you know what would be really cool
is the partner with the Monroe Institute,
because they did all the CIA stuff from like the 70s
to the 90s with Project Stargate
and this all this other stuff.
And there's still some of those old CIA guys floating around.
They're actually teaching at the Monroe Institute.
And I got this big ass ranch, you know, 11,000 acres.
So why don't we do this?
Why don't I just go randomly bury caches of things
and mark them and put them on the ranch
and run the guys through the remote viewing training program
and see if they actually can find those caches.
What's the probability of finding like a needle
in a haystack in this whole thing?
So if remote feeling works, you know,
there's at least a chance that they could find
this type of thing.
So the reason I bring up a mortal is that they're actually
even thinking is there a path to use those modalities
in that chamber because it's flirting with altered states
of consciousness.
If you vibrate a brain in just the right way
and use magnets in just the right way,
you could actually knock a person into a psychedelic state.
You can create a diagenesis DMT,
you can do all kinds of crazy things.
Interesting.
It's so out there.
What's the name of this company?
Immortal, A-M-M-O-R-T-A-L.
And it's a lifestyle device right now,
but there's a lot of medical use cases
for these things for recovery and things,
because you have red light therapy with vibroacoustics
and all these other things.
So anyway, it's really cool to see what you can do
with this technology, because it's currently one lens,
but if we move over here, we might even be able
to use it for remote viewing or use it for something else.
Who knows if it works?
Very interesting.
Maybe you could connect me with them.
Oh, of course, of course.
I'd love to have a conversation.
Yeah, they're super cool dudes.
And since they launched it, they're
selling it to everybody, like professional sports teams
are buying everything.
I bought three of them just because I
wanted one in my clinic.
I have one at my office.
And then I sent one to the president of one of my companies
because she really liked it.
And I gave it to her for a Christmas gift.
I said, here you go.
Wow.
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All right, Charles, we're back from the break. We're talking about consciousness, extraterrestrials,
remote viewing, all kinds of stuff.
And so you had mentioned psychedelics briefly.
Have you done any psychedelic type therapy?
So I took Kenamine last year and that was a wild trip.
You know, I'd always been fascinated with psychedelics
and I have a lot because I went to school,
see Boulder, come on, it's like a big party school.
Like everybody's done something somewhere at some point.
But you know, I came from a medical family
and came from a traditional medical family.
So there was always kind of a dreary view on psychedelics.
Oh, well, these psychedelics do bad things
or things like that, or, you know,
they're at the best case scenario,
kind of like a party thing,
as opposed to like an enlightenment thing.
So I didn't take it very seriously
in kind of the first part of my life.
But then as I got older,
one of the unfortunate consequences
that anybody who's well traveled is
you pick up a lot of friends and acquaintances who get damaged by circumstances.
Maybe they have a traumatic event or they go to war and then they come back and they're
all messed up.
So as you see people get damaged, they try to heal themselves in the conventional traditional
way and then it doesn't work, so then they try other things.
And almost always somebody tries a psychedelic, like they go on an ayahuasca journey or a BOGA,
or they take DMT, or they take psilocybin or mescaline,
and then they come back
and if they have the right set and setting,
it really changes them.
So after I started noticing that,
I read Michael Pollan's book,
How to Change Your Mind, and he's a great guy.
And I said, wow, there's a there there,
there's something interesting.
So then I started going down the rabbit hole
and I love plants.
And so I said, well, mycology looks like a lot of fun.
So I read everything from Paul Stamets
and I started going through his stuff
and learn how to cultivate mushrooms
and these types of things.
And knowing the mycology community,
you kind of get to know the psychedelics community
really well.
Because as they say, oh no, we do different things. Well, you guys do the psychedelics community really well, because as they say,
oh no, we do different things.
Well, you guys do the psychedelics too, come on now.
So you get to talk to all those guys.
So I'd always had that intellectual curiosity,
but I didn't really have a really effective way
to engage with intellectual curiosity.
I was always busy and I didn't want to go
and take Iowa Oscar or something,
because I said, well, I have this company,
I have all these people that rely upon me. If I go off want to go and, you know, take Iowa Oscar or something. Because I said, well, I have this company, I have all these people that rely upon me.
If I go off on this spiritual journey, what if I radically change as a human being?
And I come back and I say, I've sworn off all wealth,
and I'm just going to sell my property and these types of things.
So I said, no, you know, I should probably wait.
But then I'm friends with Dave Asprey and Dave told me, hey,
you got to try out this 40 years of Zen and we've added ketamine to it.
And I said, all right, that sounds fun.
I'll go try it out.
So I went to Washington for five days
and I did his program and I took the ketamine
with it for four of the five days.
And it was a wild trip.
You know, you're like in this pod
and you have your brain is hooked up to an EEG.
So you can actually see your brain signals
while you're on a ketamine trip.
And then you have your earphones on
and they give you an injection
and then you just kind of sit back
and ketamine makes you disassociate.
So it's a disembodying drug.
And so you kind of, it gets dark
and then suddenly you lift off
and then you're just kind of in a different place
and you no longer feel this instation of proprioception.
You're not in your own body.
You're basically in a different body.
And the first time I did it, it was kind of like a journey.
You know, just you're on a roller coaster
and you're going to all these different experiences
and places, but then as I adapted and learned more
about the ketamine trip,
because we did it multiple times throughout the week,
then I was able to get a little bit more agency,
a little bit more control over the journey.
So it went from a totally automated thing
to you have some sort of influence and control.
And they said, well, there's intentionality
is a big deal with this.
If you kind of go into the trip with some intentions,
you can change it a little bit.
And so the most surreal thing happened that Thursday,
which was the third day I was taking it,
where I just basically embodied a wolf.
I don't know why it happened,
but I was like an actual wolf,
and like in a forest, running and chasing a rabbit.
And I had the smell of a wolf,
like I could actually smell its scent and run through.
And it's like all the sensations doing all the things,
and it was just so out there.
And I come back and I say,
I don't know what the hell this means.
So it took a little while to discombobulate
and figure out these types of things.
But what was really nice about it
was that after coming out the other side,
I had this tremendous release of stress and tension.
I had built up 10 years of founderitis,
all the betrayals and the boardroom brawls
and like traveling in anger and like shit I had to deal with.
It had aged me prematurely and the person who was there
is like, you look 10 years younger.
And I looked at photographs actually before and after
and he was like, damn, I actually do look a lot younger
and lighter and I regained a sense of joy
and I regained a sense of lightness and I regained a sense of likeness,
for lack of a better term.
I felt young again.
You know?
Was that your intention to do that?
No.
In the beginning?
No, no.
It was just a straight adventure?
It was a straight adventure.
Well, it was more like,
I just wanted to see what would happen with it,
because I had read about it,
and I was trying to understand biochemically
what happens in the brain, and these types of things.
And you know, I meditate with EEG- these types of things. And you know, I meditate
with EEG assisted meditation. So, you know, I have like a muse and other devices like Neurosity and
these things. And so I'm able to actually see my brain waves and control them and these types of
things and like elevate alpha or gamma or these things. But I never really thought that that
outcome would occur with that. And I said, there's a there there, this is very powerful.
And ketamine is kind of like the entry point.
It's a very easy drug to take.
It's very safe, it's FDA approved,
it's a schedule three drug, so it's legal.
And any doctor could prescribe it and use it.
A lot of nurse practitioners use it.
And it's used in battlefield medicine a lot.
If you're like an 18 Delta,
you're gonna have it in your kit
when somebody's legs are blown off,
you give them some ketamine so that they disassociate
and you can get them out
and they don't feel in horrible pain.
It was originally designed for kids as an anesthetic.
So it's one of those drugs that's a very good entry point
into the whole conversation.
And so I got so fascinated with it.
I said, I would like to somehow integrate this
into our healthcare clinic and use it
for depression treatment.
And we now have a team of people that are kind of calling
people and trying to figure out like,
how would we do that modality?
But more generally there's,
what's really interesting is this whole concept
of disassociation and time expansion.
There's another drug that I've never tried,
but I've talked to some people that have done it.
And I've read a lot of firsthand accounts,
it's called salvia, and it has one of the strangest
properties where the high-
Salvia?
Salvia, yeah, it's a plant, and it has this property
of time expansion, so you take it and the high
only lasts like two minutes or three minutes
or something like that, but you'll experience hours,
or in some cases days, some cases weeks,
some cases months of some event.
So like one person lived another person's life.
He was in Alaska, and then he just woke up
as another person in Texas, like working at Walmart,
had a family and all this, and for months and months
and months this thing goes on.
Then he wakes back up and his body in Alaska is like, where's my wife and kids?
What the, what the fuck?
This is crazy.
I've heard about this.
Yeah.
I've heard about, I was talking with, uh, some friends of mine a couple of months
ago, they, I think they said that that was five MEO DMT that they, that, that,
that the time, what time expansion experience, time expansion, and that this
guy had, had taken, had smoked the five Yeah, they said 10, 15 minutes maybe. Right. And he woke up and still to this day,
he misses the life, the entire lifespan
that he had experienced within a matter of minutes.
Right.
Which is nuts.
It's like that Captain Picard thing
with the inner light in Star Trek The Next Generation
where the probe hits him and then he
lives another person's life and over like a 17 minute period.
It's like that's fantasy, it's fiction,
but then you have five DMT and the frog venom
and then you have salvia and there's other drugs
that do this.
And somebody even wrote a book about it
called Time Expansion Experiences.
I think it was Steven Tyler, Taylor or something,
I forget his name, he's a psychologist,
because he was so fascinating,
he got in a traffic accident
and like life just slowed down dramatically.
And even though it was a very short period of time, it felt like a really, really long
period of time. And it was curious, why does that happen? Why does your perception of time
so radically change? And what substances and techniques could you use to do such a thing,
either to speed it up or to slow it down on demand? And some of these substances are so powerful
that they disassociate, so you leave your body
and it becomes something else,
but then also they expand time.
So a short period becomes a very long period.
And you tend to wonder, okay, if that does happen,
what's sticky about that?
So there's the concept of experiencing,
but then there's the concept of memory formation.
So you experience it, but do you retain what happened
during that time period and how much is possible to retain,
you know, what happened during that time period.
So it's just wild.
And it makes me sad that these substances are mostly banned
because that means they're lost to us
from a research perspective.
Because when you hear this account,
the first thing you think about if you're a scientist is,
well, how do I study that?
I wanna know why that happens.
I wanna know the mechanism of action.
I wanna understand, is it a dial we can play with?
Because there's so many use cases.
Think about the special operations community.
If you're in a combat setting and you have the ability
to slow down time and perceive time at an accelerated
pace, that's a gargantuan tactical advantage over everybody else because you're acting considered
and deliberate. I would have never thought of that. Yeah, but just think about that. You're
like breaching something and you're walking in and your perception is 10 times faster or 100 times
faster than somebody else. That's the very same mechanism of action as that salvia making you live like a lifetime
in two minutes, you see?
So there's real value to these types of things
and all these, or first responders,
like a police officer trying to make a snap decision.
Do I use lethal force or not?
Is this person a threat or not?
Almost all these wrongful death things, it's never black and white. It's, you know, the this person a threat or not? And almost all these wrongful death things,
it's never black and white.
It's, you know, the person's charging you,
well, did I really need to shoot him?
Could I have done something else?
Do you think that the time actually does slow down?
Yeah, your perception of it.
And not time slows down, but your perception of it.
Because think of it like a computer processor.
It's got a clock speed.
It operates much faster than a human brain does
in terms of the hertz.
So we both experience time objectively in our reference frame, roughly speaking the
same.
But the difference is the amount of things it can do in that time, the amount of actions
it can take, decisions it can make is millions of times more.
So is there a way with the human brain hardware to kind of speed it up so that you can actually do more
in the same amount of time
or perceive more in the same amount of time?
In fact, this is an indice of aging when you look at-
So if we're sitting here,
I mean, I go to a combat environment
because that's my background,
but if we're sitting here and I take salvia and you don't, we're experiencing
the same baseline time.
Not the salvia, because it's also disassociative and so you lose your sense of self and you
go somewhere else.
You need a substance that is time expanding but non-dissociative to do such a thing.
We're experiencing the same time so are you
saying that I don't know how to put this are you saying that my perception of
time being on the substance is compared to you who's not on the substance I'm
able to use that time more efficiently to make more effective decisions faster, but
it seems slower.
My perception of time actually seems much slower.
And a lot of people in professional sports or who have been in a crisis event record
at least once in their life that something has happened where time seemed to slow down.
And a lot of things occurred and they perceived all those things like it was yesterday, even though it was only actually maybe one or two seconds. So
maybe you get shot and you remember that really distinctly, or maybe you get in a car accident,
or you're in a football player at the Super Bowl and you see the ball coming at you and
you catch it in the end zone and it's like, it's an eternity, but it only was like a one
and a half seconds or something like that. but it was a big deal because your, your perception is so hyper
focused and you're in such a flow state that your brain is operating on a
different clock length for these types of things.
So those expansion experiences are tremendously valuable.
The problem is that they're unpredictable.
Like how do you knock yourself into that state?
You know, can you do it just through focused attention or does it require
some pharmacological intervention or maybe electrical? You shock the brain with transcranial
direct electrical stimulation or magnetic stimulation and it can knock the brain into that state.
It's a really interesting thing. And so psychedelics, they seem to present that it's possible
because when you take these substances, people can live another lifetime or perceive time.
And then objectively speaking, only a small window of things, but they're like, dude, Because when you take these substances, people can live another lifetime or perceive time.
And then objectively speaking, only a small window of things.
But they're like, dude, I experienced it.
I was there.
Every day I was getting up and driving to work at Walmart.
You know, I was going to my kid's graduation.
I was doing things.
Okay.
It's, it was a lot of time.
You know, I felt that time, but they're like, dude, you're gone for two minutes.
It's like, there's no way that could have happened.
So there's something there.
And what do you think that the mind is just tapping into?
Well, I just think because again, it's a clock speed.
Like if you're running a simulation of a civilization, for example, on a computer, you can run thousands
of years or millions of years of a simulation.
And that doesn't take millions of years to run the simulation, you can run that simulation
in like an hour or something like that.
So if you can speed up the clock inside the brain,
then the perception of that time is different,
even though the absolute elapsed time is the same.
Does that make sense?
Mm-hmm.
Yeah, and so I think that's probably part of it,
is that there's some mechanism
where you can speed up the circuitry.
And from an evolutionary viewpoint,
it makes a lot of sense,
because all the time you're context shifting
in the flight or flight.
So while you're hunting the woolly mammoth
or hunting the predator,
you need to be super in the zone and super focused,
and you need an evolutionary advantage
to be able to perceive that thing faster,
because even a split second difference can mean the difference between you killing it
and it killing you.
So you need some circuitry that gives you the ability to zero end, but that's probably
super energy intensive and super stressful on the body.
So if you ran in that state 24 seven, it'd kill you.
It's just like an adrenaline rush.
You get adrenal failure and it burns you out, you know?
So you have to have a context shifting thing and it's probably an evolutionary trigger
that puts you in, which is why they tend to be, TEEs tend to be associated with stress
events, major stress events, both positive and negative.
But just because it's an evolutionary thing doesn't mean it's not controllable.
So there's probably a mechanism of action to control something like that.
And so it's a really fascinating thing to me, and I wish I had more time to kind of
dig into it and understand it better, because I'm just kind of at the surface level.
But looking into psychedelics, it kind of inadvertently made me start thinking about
those types of things.
And I said, yeah, that does exist.
That does happen.
Yeah.
And I've met tons of people people and I've experienced a few myself
where time just seemed to slow down.
My brother cut his finger when we were both kids
and I remember it was in the bathroom
and I could see the blood droplets come out of his finger
and like slowly travel and then drop to the ground
and it was probably one know one and a half
seconds or two seconds but it felt like a whole minute and I remember that you
know it's like probably nine years old ten years old when when that occurred so
so there's something there's a there there and it fascinates me whenever I
stumble on these things. What about the disassociation from self? Well that's
interesting too and I think it's valuable for different reasons.
So disassociation is a delusion of ego.
We think I am Charles Hoskinson, you are Sean Ryan, we are that.
Okay, well if you get too caught up in who you are, then it becomes exceedingly difficult
to have empathy for other people.
Because you're just you and you you're like, I am supreme.
You're like, I'm here.
So you're like, yes, everybody else is there and they exist,
but I gotta take care of myself first,
put my mask on before I put their mask on.
Well, when you disassociate, you, for the first time ever,
give up on the idea of just exclusively you.
And you start thinking of the we or the us,
because you could technically be anybody.
Imagine if, hypothetical, that there was a random chance, maybe 1%, that every time you
woke up, instead of waking up in this body, you'd wake up in a different body in a different
life.
Imagine how different the world would be just for something like that.
So you're a billionaire, life is great, and then you wake up and you're in a jail cell
and you're in someone else's life,
you're like, what the fuck just happened?
And that just would occur.
And maybe you're in the jail cell,
now you wake up in the billionaire's body, right?
You swap places.
So we would probably have radically different
social systems and religions
and radically different notions of self
in this particular case.
Because we're starting to think, well, hang on a second here,
self is now divorced from our body
and it can go to other places.
So we would probably have a much stronger conception
of the soul than we currently do as people.
So disassociation is kind of like a psychedelic shortcut
in a certain way, because if you disassociate
and you become something else,
then you start entertaining a world
where you are somewhere else, but your body is there.
And then is that really your body anymore?
Or was that just a meat suit that you were wearing?
And you can go wear another meat suit,
or maybe you don't even need the meat suit,
or something like this.
So it's a very powerful concept.
And actually in darkness retreats,
this is one of the things that happens
when people go for a long period of time.
They lose sense of self
because they no longer see themselves.
They start making DMT in their brain.
They start disassociating.
And they basically shed the skin
and they start living kind of a more ephemeral world
because the darkness, there's no sensory sensory perception your brain can no longer orient itself and you just go to
a different place with that and all these people that do darkness retreats
they talk about it. In fact the Tibetans they have this thing called the Bardo
Thodol, the Tibetan book of the dead and it was written by this like super Buddha
dude and who meditated so hard he kind of looked into the afterlife according to him and he wrote down what happens after you die
And he said there's like these three stages you go through
After your body shed and your soul is trying to decide whether to go and be enlightened or be reincarnated
And they do in Tibet darkness retreats for more than 40 days
They actually go into a dark cave and they live in a dark cave
No light no thing,
to live their own death.
And so they go through every stage of that process.
It's brutal and horrible.
But then when they come out the other side,
they get enlightened and they get out of the cave.
And they all report that it was like some concept
of a disassociation and a dilution of oneself from it.
So it's a powerful concept and it's high shelf.
You know, it's scary because, you know,
there's no comfort in losing what you are.
It's all the things you've done,
everything you've accomplished.
You know, we're proud of the things we do.
This room is filled with the things you've done
and the people that you've met.
And this idea that it could all just disappear
and it could all be gone, you know?
But on the other hand, if you don't mind these things,
then none of this around you controls you.
You know, my advantage of being a cryptocurrency billionaire
is I was broken a billionaire three times
in a 10 year period.
So then it goes way up, it goes way down.
It goes way up, it goes way down.
So people ask me like, what would you do
if you like lost all your money?
And I said, I'd just go back to living in the apartment
with the little stuffed giraffes behind me
when I was doing the AMAs when I first got started.
And they'd think, but how will you be happy?
And I said, well, I was pretty happy back then.
Life was pretty good back then.
I mean, I don't get to do as many cool things,
but I did the cool things,
and I'd find something else to fill the time.
So I didn't really need that conception of mega wealth to perpetuate happiness or a specific
lifestyle to perpetuate happiness because I know I just have this sense that no matter what happens
it'll be okay. And I think that dissolution is one of those major steps to helping people get there
and accepting that everything is impermeant and there's losses.
Another thing is the Buddhists do, I love it when they do these things because they worship
impermeance. Do you know what a sand mandala is? This bothers the hell out of me. The mere
existence of this bothers me. It shouldn't, but it does. So these monks will meticulously sit down
for weeks and weeks and weeks and grain of
sand by grain of sand, colored grains of sand, sit down and put together this beautiful sand
tapestry, it's called a sand mandala, on a table.
And usually they build it as a group.
And it's just absolutely stunning.
It's like super artistic and nice because every single grain of sand has been set by
hand by these guys.
It's so meticulous.
And as soon as they finish it, they destroy it.
It's just like, you see it just like, oh, wow, that's so beautiful.
And then they just go, sweet, sweet, sweet.
And he's like, what are you doing?
Stop it.
It's a work of art, goddammit.
And the whole purpose of a sand mandala is to kind of like showcase the impermeance of
all things.
Everything must die, everything must come to an end, and the joy is in the act of doing,
not in the act of preserving the act of doing, and it's the experience of these types of
things.
So I think there's some wisdom there.
And we in the Western world, we were not terribly comfortable with that because everything we
do is trying to like preserve and make immortality.
Ernest Becker wrote a lovely book called The Denial of Death, and he says the driving force
of the modern world is this concept of immortality cults.
We do everything in power to deny death, and if we can't physically do it, then we'll do
it through a religion or we'll do it through monuments.
Yeah, there's some truth to that, like going to Egypt and seeing like the great pyramids
and you see Khufu's pyramid, you're like, wow, okay,
4,400 years ago, this guy built this gigantic thing
just to try to deny death, you know, his own death.
That's pretty wild when you think about it.
What do you think happens when we die?
That's a good question.
I think the more meaningful question is,
does it really matter?
You know, it's one of those things you can't stop and you're on that ride and you can't know until you get there. So why should we let the next chapter influence the enjoyment of this chapter?
It's kind of like you're reading a book and you're like, you know, I can't really enjoy chapter one because of something in chapter two.
Like, but you're not at chapter two.
Like you're in chapter one, read that chapter and enjoy that chapter.
That's there.
Chapter two is, it's somebody else's problem.
It's, it's, it's, it's, you'll cross that bridge when you get to it.
Cause if you get obsessed with the end, then you end up spending, wasting all the
moments that you have here.
You waste all the relationships, you waste all the interactions to try to buy more time.
Even if you live perfectly, you sleep right and don't have sleep apnea, you work out every
day and you do a great job and you're low stress environment and you're healthy diet,
you could just walk outside and be shot.
You know, some random stray bullet
from a bank robbery or something.
You could be in a traffic accident.
You know, I had a good friend and he was 28 years old,
he was driving his truck and you know,
he was getting a little tired and you know,
as he was taking a left turn, a drunk driver came by
and you know, just hit him and he got horrifically mangled up
and died on the road.
And this guy, he was a marathon runner, perfect body, perfect health, fucking vegan, annoying
vegan too.
It's like everything had to be perfect.
And he always bragged about how healthy he was.
Every lab was perfect.
And he's bragged about like how healthy was every lab was perfect
And he's done right so
It's like should we worry so much about that because we don't know how chapter one is gonna end It should be much more like what do you do to enjoy reading the chapter?
Mm-hmm, you know and then the rest will become evident
The other thing you get fascinated with things though, and we're talking about bioluminescence
plants, the dire wolf, cryptocurrency.
I mean, we haven't even got to the clinic psychedelics consciousness.
You have to have some thoughts on what happens.
Yeah, but it's one of the things like, can you know. So mathematics, if you study mathematics deep enough,
when you first start, you're like, everything has a proof.
And if you're smart enough, you can find it.
And then when you get deep enough into the guts of math,
there's like a hidden dark knowledge
you're not supposed to know.
Like Scientology, they have the levels, right?
And eventually you find out about Zinu.
So in mathematics, eventually you find out about Gernel,
it's like the dark secret.
It's called Gernel's incompleteness theorem.
So back in the 19th century,
math was kind of in a weird state.
So these guys got together like Alfred North Whitehead
and Bertrand Russell and David Hilbert
and said, you know what we're gonna do
is we're gonna rebuild all of the foundations of math
to be on this beautiful axiomatic system
where everything will be rigorous and formally provable
and it'll almost be like a machine
where you just turn the crank and you can prove everything.
So in any formal system,
you have four properties to a formal system.
So you have your axioms, the base level of the system.
So these are the things that you assume to be true
without proof, because you have to have some rules, you know?
And then the next step you have in a formal system
is independence.
So once you have axioms,
do the axioms contradict each other or are they self-standing?
Then the third thing you have is completeness
and the fourth thing is what's called decidability.
So completeness says that if I give you a statement
in my formal system,
you have enough machinery to be able to prove
whether that statement is true or false.
And decidability is, can you build a machine
that if you turn the crank enough times,
it will derive that truth value or false value.
So all these mathematicians in the 19th century,
they absolutely believed
that math had all four of these properties,
that you could build some set of axioms,
who knows what the hell they are,
that will cover everything in mathematics.
And then those axioms will all be independent of each other.
So they're just, they're not too many, not too little.
It's like Goldilocks, they're just right.
And then it's complete.
So no matter what you tell me,
I'll be able to build a machine and it'll turn the crank
and it'll tell me it's true and false.
So then in the 30s,
there was this paranoid schizophrenic graduate student
named Kurt Gödel.
And he's like,
yeah, actually math can never be complete.
It was called Gödel's incompleteness theorem.
He just broke math.
And basically what he did is he said,
he invented this thing using what are called
Gödel encodings outside of math.
And he said, okay, this thing that you can't prove it
within your system unless you introduce
another axiom, but the minute you introduce another axiom, I can use that to construct
another thing that requires another axiom.
So there's always going to be a statement outside of mathematics, inductively, that
is unprovable with the current system that you have.
So effectively, mathematics is forever incomplete if you want to do interesting things. So it's like
the hidden secret of mathematicians, like there could exist things in math that you can state,
but you can't prove. So then they're like, well, can we at least build a machine that can tell us
whether it's true or false or undecidable? So then they said, well, let's at least try to do that.
And then there was another brilliant kid named Alan Turing, who basically said, no, actually,
math is fundamentally undecidable as well. You
can never build an abstract machine to basically always show you what the
answers are. But at least there we got computer science because inadvertently
while Turing was trying to solve that he invented the Turing machine which was
the basis of all of modern programming languages and computer science and these
types of things. So why is this related to death and consciousness
and things like that?
What we have just shown in mathematics
is that there exists things outside of a formal system
of provability.
And no matter how smart you are or how capable you are,
it's so far outside of the realm,
there's no way to actually meaningfully talk about it.
Because I can't prove it, I can't solve it.
And death in many ways is like this.
Our perceptions are bounded by these electrical meat sacks
we walk around in and there are things we can see
and perceive like light and sound.
There's other things we can't perceive
and like radiation for example, we don't sense it.
We just feel the consequences of it.
Death is like this thing that happens after
and you can have an opinion like, okay, well,
there's a soul and the soul will go somewhere
or there's reincarnation and you become something else
or you can say it just all comes to an end
and you're just like the plant that dies
and this other thing.
Or you can say there's like this collective
panpsychicist consciousness.
In fact, there's a variant of Christianity that I believe is called Gnosticism. It was a competitor
of Christianity after Jesus died and it was like heretical. They said that actually the God that
the Christians worship is actually a fake God and there's actually another God in a different realm
and this fake God is here to actually deceive all the people.
And only through gnosis can you discover this other God.
The point is that you can spend endless time
and endless mental constructions,
but all you're doing is you're just adding another axiom,
which then I'm going to immediately take
and put into the machine to make us another notion
of afterlife that's beyond your ability to prove.
And then you add another axiom and then we repeat it. So death is an inductive process.
No matter how smart you get, what senses you get, what understanding you get, you can't really get
there. There's even this ship of Theseus problem. Your cells replenish and change themselves. So
what is death? You are you today, but in seven years,
all your cells have rotated out and changed out.
So are you still you then?
Or are you a different person then?
If all your cells are replacing themselves.
Just like, let's say you buy a classic car
and you change the tires,
then you change the transmission,
then you change the engine,
then you have to redo some of the body work,
and then you have changed the panels,
then you change the doors, and change the headlights.
At what point is it no longer the original car?
So if your body is constantly changing and adapting,
your brain is constantly changing
and restructuring and readapting itself,
at what point did the you of today die?
Because our view of death is that it happens
after everything ceases to function,
but maybe you die a little every day,
and you're a completely new person every single day.
It's the same with Star Trek,
where they have the teleporters, the transporters.
Are you really moving from point A to point B
and you're being reassembled or are you just being cloned?
And you're being murdered on one side
and replicated on the other side.
So the person who stepped on that pad now is dead.
And the person on this other pad
is actually a completely different person.
He's just cloned, but he thinks he's that
because he has the exact same memories,
the exact same DNA, and the exact same perspective.
Death could be this way.
And then AI makes things even more challenging
because what happens when you can create
near-perfect simulacra of people?
So all this interaction with AI and all this data,
at some point, a computer can probably create
a pretty realistic copy of you,
so much so that it's indistinguishable from other people.
And we go like, well, that's not you.
Okay, but what makes you you?
If I know you as a person
and I spend time with you as a person
and every time I interact with you,
the computer gives me the exact same experience.
For all intents and purposes it's
you from my perspective. So is your you defined by you or is your you defined by me and my
interactions with you? It's another interesting part of life and death, right? You see? So
that's why I try to avoid the big question because I think it's in the same class of problems as the incompleteness problem
and you can with a life philosophy construct a system where you sidestep it. That's what the Buddhists do. They basically say there's this concept of reincarnation and the goal is to
divorce yourself of the things that cause suffering and pain and attachments or that. So you get rid
of the attachments or you can then say, no, no, no, this world is a test and you are a meat suit with the soul. And based on what you do piloting that
meat suit will decide where your soul's final resting place is, either it's in hell or it's
in heaven. So that's kind of a more Judeo-Christian view of that. Or you can be an atheist and say,
there's just the meat suit and that's it. And it's random chance that you get the pilot of meat suit who the hell
Knows how you pilot it where it comes from but your time's your time and when you're dead
You're dead and have some kids because that's the closest you'll get the immortality, right?
Well in all three of those cases the same result occurs you die. We don't even know when but you die
So what does that mean to me?
What does that mean to society and everything else around? Not a lot.
You know, it's the same outcome and the same thing.
And let's say you get lucky and there is an afterlife.
Well, what impact do my beliefs have in this world on that world?
Whether I believed A or B or C, whether I thought it was the meat suit
or this is a spiritual test or
you know there's a reincarnation thing, I'm going to end up in the same line with Saint Peter,
you know, and we're going to have the same conversation. He's just going to be like,
ah see you didn't believe. It's like, well what kind of a just God would punish me for that forever,
for all eternity? This is where I disagree with Thomas Aquinas and Saint Augustine and these other
theologians of the Catholic Church who were like, oh, well, you know, God is infinite, so disbelief in God is an infinite
sin, thus deserves infinite punishment. It's like, oh, screw you, Theumatheologica. It's like mental
masturbation to justify an antiquated doctrine of control. A lot of these things are about controlling
behavior and regulating behavior amongst people.
No just God or just parent of a child
would create an infinite punishment
for a lack of faith in somebody.
And no matter what you do and you misstep,
it's a finite crime.
So punishment is finite.
So let's say you get it wrong.
The maximum punishment is the duration of your life,
perhaps a multiple of that, but it's not internal.
So there's no downside when you think of these things one way or the other.
And so that's why I don't let it guide the life.
And instead what I do is I say, I just want to live a life of curiosity.
And what I want to do is self-impose a mechanism of leaving
things behind for everyone else.
If I build great systems,
those systems will be accessible to everyone in the world.
And whether my name is remembered or not as immaterial,
I get to know that it changed things for everybody.
You know, it's like serving in the agency
and it's like no one really gets to know,
you're supposed to be secret.
But if you do something great,
you may have saved a thousand lives
or 10,000 lives or or 100,000 lives.
You didn't sign up for the credit.
You signed up for the action and the outcome
that you wanted to do.
And so, immortality is the exact same way.
If you live for eternity, you're only living for yourself.
If you live for the system
and you live for changing other people's lives,
well, the only time you get to do that is finite.
So the immortality thing doesn't mean anything, the afterlife doesn't mean anything.
So that's why I think of it that way.
Otherwise I just go crazy.
You know, I just sit down all day long with theologians and philosophers and other people
and we'd just be mentally masturbating and be just one big circle jerk all around, you
know, and getting sprayed a little bit over here by Christianity and right here by Vishnu
and these things.
And just one big bukkake of philosophy.
It's just, it's impossible to get anywhere.
And then you just get so glum because you're like, why does it matter?
There's no meaning, there's no purpose.
One thing I know for certainty is humans need meaning.
If you take meaning from a man, he will collapse
and there's nothing there.
If you have meaning in a person,
they will endure any amount of hell
to get to the other side.
So the much more meaningful question
is what happens when you die?
It's how do you discover meaning in the moment
and perpetuate that and preserve that
and carry it with you?
And then how do you align your meetings
so it's empathetic with society as a whole
and it helps society as a whole?
Those are the things that are a much more meaningful
question to focus on.
Everything else is just, it's a waste.
It's either weaponized to control people
and convince them to do things they would ordinarily
wouldn't do, or you end up going to dark places
that you really can't come back from.
you end up going to dark places that you really can't come back from. Back to your psychedelic journey where you
you turned into the wolf. Yes. Was that
before the dire wolf? Yes. Do you think there's an association there?
You know, now that I think about it, it could be. I never connected that because
I found out about it in January. You never connected that?
I didn't. I just, because I did the trip in November and in January I found out about it in January. You never connected that? I didn't. I just because I did the trip in November and in January I found out
about about the direwolf. But that is... You never thought about that until this
specific point? Until I brought it up? No I never thought about it. Holy shit Charles.
Seriously? I never did. What do you think now that I just brought that up?
Well you know it could be but the other thing is, you know, I'm a quarter Norwegian
and a quarter Italian, and on the Norwegian side, they were like Viking raider dudes,
and, you know, maybe one of them was like an Ulfhead, not a barbarian, like the wolf
raiders, so who knows?
It could be some connection to familial blood.
It could be a premonition of the dire wolf.
It could be just that I like dogs You know who the hell knows I got five dogs, you know
And and I got wolves, you know running around probably on the ranch never seen him
They tell me they're there, you know, so who knows but two months later you find out about this
Yeah, that's a good point, but I never thought of it that way. Maybe it is. Perhaps ketamine gives you the ability to see the future.
Let's talk about the dire wolf.
Yes, sir.
How did you get involved in that?
So, as I mentioned before in 2021, I met Ben and we were talking about like a
kind of a crypto colossal thing.
And I invested in colossal quite early in the company's history.
So they were before they had done any of that major work.
And so, you know, every six months to a year, you know,
Ben I would talk and I'd go down to either Texas and things like that.
And I kind of follow the progress and get to know, like, what are they working on?
And then after we founded a company together,
then I started getting much more involved in these things.
But we always knew that the woolly mammoth
was kind of a horizontal goal.
And the reason being is it's ridiculously hard
to genetically engineer elephants.
You know, they have specialized machinery
that prevents cancer and that specialized machinery,
it keeps their genome very stable.
So it's good for them,
but it's bad if you wanna change your genes
because it's really hard to edit things.
So they needed an animal that was easier to manipulate
and work with that was from a very well understood genome.
And dogs are super well understood.
We understand everything about their DNA
because we've selectively breed them.
And that's why you have corgis
versus like great Pyrenees
and things like that.
So they said, well, it would be really cool
since they had a full genome of a dire wolf
to see if they could take a gray wolf
and kind of create a chimera.
So you take DNA from the dire wolf
and the DNA from the gray wolf,
and you move genes over one after another.
And then eventually you get to something
that will look like, act like, bark like, talk like
a dire wolf. And then talk like a dire wolf.
And then it's a dire wolf. And really the test is morphological. So you say, okay, if I left it, if I let it go 10,000 years ago,
would it go find a dire wolf pack and would they accept it as a dire wolf?
And if it bred with them, would they have children? If that's the case, it's a dire wolf.
And you know, there's all these internet, actually, it's a modified gray wolf.
Fuck you.
It's, dude, if we found its bones,
the archeologist would be like,
oh, that's a dire wolf skeleton right there, right?
They wouldn't think for a moment
that that's a genetically engineered gray wolf or things,
because it's identical to the dire wolf.
But what it does is it shows that
it's the art of the possible.
It's possible to take a modern animal
and then adapt that animal to become an ancient animal.
You can clone an ancient animal,
but the challenge with cloning an ancient animal
is the DNA is almost always incomplete
and you don't really know what you don't know.
So you never find a full genome.
It's not like when you find the direwolf,
there's like a labeled vial in a freezer
that says direwolf DNA.
You find a skull or you find a tooth
or you find something in a tar pit
with a little bit of like ancient bone marrow.
And when you extract it, you get an incomplete reference.
And then you'll find another one you extract
and it's like a puzzle.
And you're kind of putting the pieces together
in just the right way.
And there's people that this is all they do.
They just study this stuff and they say,
oh, okay, maybe we put the piece this way
and the piece this way and the piece this way.
And then over time, you kind of get a sense
of what the genome actually looked like
for that particular animal.
And then if you're really lucky,
you can actually start identifying
which genes did what where.
Like with the woolly mammoth,
this gene makes the fluffy fur
that makes them immune to the cold.
And this gene makes them fat, which insulates them
and they get higher brown fat.
And this one makes their tusks curved and so forth.
And then if you're really good at synthetic biology,
you can actually test that type of stuff.
So they actually created the woolly mouse.
So if you Google it,
you could see this super fucking cute mouse
where they took the genes that make the wooly mammoth fur
and they put them in a mouse.
And so the mouse looks like a wooly mammoth.
It's got a little fur and runs around and super cute.
But it then says, hey, we thought it made the fur
and the mouse has the fur.
And we take the fur off the mouse.
It looks a lot like the samples we have in the tar pit.
So yeah, that's the gene that does that.
And then what you would do is take the elephant genome
and just like the wolf, you move the genes over
one after another, and over time,
you get to a point where you have a mammoth,
and there you go.
So that's kind of like 1.0.
Then as you move further down the road,
as AI gets more advanced,
the bioinformatic models get more advanced,
then you escape the bounds of chimeras.
And you say, okay, no longer are we going to go produce things that are just
simulacra of old animals, you know, representation.
Instead, why don't we make new organisms?
And this is really interesting because you can then make an organism
perfectly adapted for the current environment that we're running into.
So for example, look at the Great Barrier Reef.
You know, if my great grandfather went to Australia and scuba dived down, you know,
and saw the Great Barrier Reef, it would be a lush, vibrant, beautiful area.
But now if you go and see it, like a lot of the coral down there has been destroyed because of
rising ocean temperatures, so it's bleached and you can see images before
and after of the Great Barrier Reef.
Because coral doesn't have very good mechanisms
to maintain homeostasis with environmental variation.
We as humans, these meat suits are well adapted.
So you can put a human in a very cold environment
or a very hot environment and where body temperature
will stay stable because we have all these
regulating mechanisms.
Coral doesn't have that.
So if the ocean temperature changes too quickly,
or even just by a few degrees in some cases,
it'll kill the coral.
So what if you genetically engineer the coral,
create a new type of coral that has
that regulating mechanism so it's better adapted
for that type of thing?
Then suddenly you can repopulate the Great Barrier Reef
and we get it back.
So some people are like, how dare you do that?
Probably Greta will be angry with us and like,
you've taken my future, but fucker.
It's like, I don't care.
We broke it, we bought it.
And so we are masters of the world
and it's ours to do with as we please.
And we can kill everything or we can rebuild everything.
So you know what?
Why don't we just be good stewards of the thing?
And if we broke something, let's fix it.
And that's ultimately in my view as an investor in colossal
and as somebody who likes synthetic biology,
that's the philosophy that I take with this technology
is it gives us a toolkit to deal
with the consequences of modernity.
The world wasn't designed for 8 billion humans
with roads everywhere and
power lines everywhere and chemical plants everywhere and cars driving everywhere and planes driving everywhere. It just wasn't built for that.
It was built for a different thing. We decided to do that. It has consequences.
We can complain about them or we can just fix them and
fixing them means you're gonna have to genetically engineer things to be more adapted to this new environment. So some things have to be
more tolerant of the heat. Some things have to deal with new chemicals or compounds or
other things we've introduced into the atmosphere. Like look at the forever chemicals. You know,
you've got shoes that are waterproof. They have PFAs and other things on them that make
them the Gore-Tex and things that things that waterproof. Well those forever chemicals stick around and they cause cancer.
Microplastics are another example of that.
10 out of 10 penises at this point have microplastics in them.
That's why fertility is probably plummeting.
We're half as fertile today as we were in the 1970s.
Probably microplastics and the balls have a lot to do with that.
We can complain about it or we can fix that problem.
So why don't we make organisms that eat the microplastics?
So there's a recycling mechanism
so nature can process that.
Nature will do that,
but it does it on a scale of millions of years.
We can do that and we can do it on a scale of months
or years to decades,
which means that we have some hope of solving the problem before
it destroys.
If we made an organism that eats microplastics.
Yeah, we've made organisms that do.
There's bacteria that now eat plastics.
Pretty much anything you want to do, you can do.
In fact, they've even developed an STD for mosquitoes to basically kill them so that
they don't spread malaria.
So they're right now working on this fungal STD and they're just, you know,
I don't know how they administer it to the mosquitoes, but you know,
they're getting all these mosquitoes jacked up and then they go and breed with each other
and it spreads like a parasite and it's eradicating big piles of mosquitoes.
Why? Because they spread malaria.
They've killed hundreds of millions of people because they spread malaria.
Is it a good idea? Is it a bad idea? Who knows? There's some people go around irradiating a special type of
parasites fly in Central America and South America and they take these radioactive parasite flies and
they airdrop them down and they've been doing it for decades because then when they breed with the
other ones they actually don't propagate the species
and it controls the population.
So geoengineering and genetic engineering
and synthetic biology, it has its role in place.
And the problem isn't the technology,
the problem is we don't have the right mediums
to have an adult conversation about the technology.
Whenever you look at these things,
there has to be a way for humans to come together
and say, what should we do with this?
And come together as a community
and have an adult conversation.
It's like, okay, so should we eradicate the mosquitoes
with gene drives or not in these areas?
Should we change the coral so it's better adapted for this?
Should we do this?
Should we do this?
And what are the consequences of this thing?
Is it irreversible?
Meaning if we do it, we can't fix it.
Procedural inevitability.
Is it reversible but expensive and costly?
And sadly, we don't have governance structures
that do these types of things.
The Iroquois did, they called it
the seventh generation concept,
where they say the decision we're making today,
what impact will it have on the seventh generation down, where they say, the decision we're making today, what impact will it have on the seventh generation
down the line?
So you kind of think to the future and you say that,
maybe capitalism needs to be changed a little bit
to do this.
Like imagine if you had a dual monetary system,
you had today money and future money,
you needed both of them to buy stuff.
And so you earn today money just like you do now,
you make your podcasts and these things
and have sponsors and they pay you.
But then future money, you can only earn that
by doing something good for the world 100 years from now.
And so that changes all the things in capitalism.
There's gonna be a whole company
that's focused on making future money.
So they're doing all this stuff that no one alive today.
This is happening.
Well, no, imagine it as a concept.
Well, then we wouldn't have a lot of these short-term problems.
Global warming would be inconceivable or any of these environmental concerns would be inconceivable
because you can't make future money if you're destroying the world of tomorrow.
You can only make future money by helping the world of tomorrow or building longer-term
government systems.
So you get what you pay for in an incentives thing. And so I always ask,
why can't I have a conversation about what we should do with these tools, like what Colossal
is building or what we're doing with the plant company? Well, because the incentive system is
not set up for that. It's set up for short-term gains. How do we make money as fast as possible
from as many people as possible to maximize our local short-term utility?
If the incentives problem was set up that you have to make both short and long-term
decisions, then capitalism would be tuned differently and then people would make different
decisions based upon these things.
So what's cool about Colossal though is it does show the art of the possible and it's
one of those few companies where it's so blatantly obvious
that there does need to be a conversation.
There does need to be a different way of discussing this
than how we've historically done these types of discussions.
There needs to be a different zeitgeist
about these types of things.
Because we're so far removed now
from I'm making a cell phone application
or I'm making a website
or I'm making a black phone application or you know I'm making a website or I'm making you know right a black rifle coffee or something like that it's so
far removed from that standard thing you're literally talking about like hey
you know what type of animal should we make today would you like a turducken
you know which would you like your jackalope you know you could do it if
you really wanted to you know And I even thought about like,
if we made a unicorn,
would that be like a narwhal with the horn?
Or is it more like a rhino?
Is it a horn?
Is it more like a fingernail that just got really big?
Like, how would you do that?
What a horse's skull look like to make it like a unicorn?
How would that work?
You could probably figure it out
if you're really motivated to do that.
You can make them glow in the dark too if you wanted to.
You can do all kinds of crazy stuff with these animals.
Should you do it?
Who gets to say no?
When do they get to say no?
What conditions do they get to say no?
How do they say no?
It's an interesting thing.
Why don't we talk about that instead of taxes at this rate
or who gets to use this bathroom or or this thing, or that thing.
It's so exhausting. It's like the same 15 fucking conversations again and again.
Meanwhile, the world is moving at this breakneck blinding speed,
and we're gaining all these amazing new capabilities and technologies,
and we're just stuck in the same 15 conversations.
It's amazing how bureaucracy can get in the way, isn't it?
Yeah. And also social structures.
They're due for an upgrade.
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Let's get back to the show.
You know, you have some fears with this though as well. We had talked about at breakfast,
how you've had some conversations with,
I believe senators on how to regulate this kind of thing.
And you had briefly brought up China's experimentation
program where they're trying to build a super soldier.
Yeah, well we are too.
There's a DARPA program for it and these things.
So it's like, everybody wants a super soldier. Yeah, well we are too. There's a DARPA program for it and these things. So it's like, it's everybody wants a super soldier, right?
And you make them learn faster.
You know, you find ways to make them run harder.
And it's no different than the Nazis
when they were giving people meth.
They had a drug called Pervitin, which was meth.
And they just, during Blitzkrieg, like in the early days,
it just gave everybody tons of meth.
So those guys that were rolling in Poland,
they were so high. And even Hitler was taking tons of it. And then they learned only after the fact
that, well, there's some really serious consequences to having like an entire army of people on meth
for a protracted period of time. So, but military seldom, you know, seldom think of long-term
consequences. They just want to win battles. And unfortunately, that's an incentives problem again.
If you tune a system and say,
your objective is to win at any cost
or defeat this very scary adversary,
you will take shortcuts to facilitate that,
is what it is.
We can invade Japan or we can drop some nukes on them.
We invade Japan, MacArthur will do it,
he knows how to do it, he was pretty good at it.
It'll take a year and it'll kill a million people.
We drop some nukes, maybe it ends faster.
It also shows the Russians that we have the nukes.
So you know what, maybe instead of having
North Japan owned by the Soviets
and South Japan owned by the Americans,
it's one country and we have total control out of it.
That's what ended up happening. But you need to drop nukes on people,
it's pretty horrible, right?
So that's the thing, it's like you know
that if you leave incentives in a particular way,
people will naturally abuse the technology.
Not because they're evil
and not because they're horrible monsters,
they're all Dr. Mangalas and things,
it's because their incentive reference
is fundamentally different than what's good for the commons.
And whenever you see a mismatch there
between those two in any system, financial systems,
education systems, weapons systems,
you have to regulate it a little bit.
You have to put something in there that says,
okay, I have to realign these
and force people to pay attention.
And it's why in construction, you have the concept
of a building inspector.
Because if my incentive as a builder is to get it done
as cheap as possible, as fast as possible,
and just get my guys out so I can go build something else,
maybe just maybe I don't wire it up correctly.
And if the person buying that is not a skilled builder,
they don't have the requisite knowledge to verify
that I didn't do the electrical panel right.
So they're gonna sit on a time bomb
and it's gonna burn down and kill them.
So that's why you have a third party,
a building inspector that comes in and says,
you didn't wire this right, you gotta go do it again.
That's regulation.
It's not always bad.
And synthetic biology is a great example of that.
Our local incentives are one way,
but who's looking out for the long-term
and who's looking out also
for the society scale consequences,
not just of the nation state,
but the world as a whole and these types of things.
Who speaks for the jellyfish?
You know, so you have to have some framework for it.
The good news is that there's a lot of really smart people
that have spent quite a bit of time
trying to think about this.
You just need to give a voice to those people
and bring them up a little bit.
And then you create a framework.
And once you have that framework in place,
if it's a good framework, people adopt it organically
and then it becomes a global regulatory framework.
We got this right with the internet
and internet scale governance.
There was a time when the internet
could have been radically different.
We had the NSFAUP and the acceptable use policy there
forbade e-commerce on the internet,
could sell things on the internet.
Think about that.
Then we also had this window of time
where the Department of Justice was trying to push
so that SSL had a back door in it
and the US government could decrypt any website,
any web traffic.
Just everybody in the world would have to
have a back door right there.
That's just horrible to really think about
the consequences of that.
But luckily we sidestepped it.
And some court cases that were very seminal
and some good policy that was very seminal,
we were able to get to the global scale
and said, you know, the internet's a global concern,
so it belongs to everybody. And everybody gets to use it. Even the bad guys like the Russians and the Iranians and these people,
they use the same Internet as the United States does and as China does.
Pretty fair. Is it perfect? No. And are there problems? Of course. And is it as rosy as I've pointed out?
No, but it at least gives you a sense of global coordination and cooperation at scale.
And it's something that enabled you to do what you do,
what I mean to do what I do.
If the internet worked differently,
these types of business models
probably wouldn't have been possible.
I don't think cryptocurrencies would have been so loved
if we had to go and ask for permission
to launch a cryptocurrency or something,
or podcasting would be so loved.
If there was a media agency you had to go to and say,
hey, I wanna do this podcast.
Well, is it approved by the Ministry of Information?
Well, no.
Do you have a broadcasting license?
Well, no, I don't.
Well, I'm sorry, you just can't do your podcast, right?
But instead it's an open platform,
so we were just able to do what the fuck we wanted to do.
We just launched these things and it's there.
And yet there are still rules in that open platform
and there's still consequences
if you do bad things on that open platform.
So I think there's some middle ground there
when you look at these regulatory structures,
but the first step is to have a fact-based conversation
and say, well, what could go wrong?
And you regulate systems based upon the
extreme consequences and likely consequences.
So the matrix of like high probability, low impact,
low probability, high impact,
that matrix that you put together.
So in the case of nuclear weapons,
we said, God, these things are so bad.
So they created the IAC
and they created a huge regulatory regime
for the entire world.
And we spent the last 70 plus years
enforcing that regime viciously to the extent
that we're willing to go to war with countries
in some cases to prevent them from getting them.
And because, you know, one rogue actor using these weapons
can literally kill millions of people.
That was probably a success, as shitty as it is.
Somehow though, we've lost the plot in modern era,
and what we've missed with gain of function research
in particular is that a small group of people
can actually kill more people than nuclear weapons,
and there's almost no global regulatory regime
at the moment, or discussion about it.
The real tragedy of Wuhan wasn't a virus leaking
from a lab, if it did. The real tragedy of Wuhan was't a virus leaking from a lab, if it did. The real tragedy
of Wuhan was it didn't start an international conversation of, well, let's play the hypothetical.
Let's say it was engineered in a lab. All these people died, the whole world shut down. How many
people work for Dr. Xi? 10, 15, 20? Can you imagine 20 people shutting down the Wendy's across the
street from your fucking apartment?
20 people living in China.
That's the butterfly effect, man.
Butterfly flaps its wings here, causes a tsunami in Japan.
It's just an extraordinary thought.
So everybody should be like,
yeah, that should never happen again.
We really need to talk about this.
Cause like, somebody's gonna do that somewhere.
And there's a lot of crazy people out there about this, because somebody's gonna do that somewhere.
There's a lot of crazy people out there that are deranged,
and they might be really angry and just decide
that they need to separate the wheat from the chaffed
and eradicate all of humanity,
and they're the chosen survivors and things like that.
It doesn't take a lot to get that Jim Jones-iness inside.
Right?
So maybe we should talk about
an international regulatory regime.
No, it didn't happen, completely forget about it. regulatory regime. No, it was, it didn't happen,
completely forget about it, don't look over here.
Oh, and by the way, we're actually doing it
in Boston University and all these other places.
We have these labs that we built
and they're playing around with it.
And you'll see like a press relief.
Oh yeah, we designed a new avian flu
that's human transmissible and 50% fatal
or something like that.
So when I talk about a regulatory structure,
I'm like, well, let's start there
as a fact-based conversation and say,
what are the consequences?
And analogously in the lens of history,
when and where did we regulate these things
and how did we regulate these things as a global commons?
And then what's really cool is these are the very few places
where we actually can have a meaningful conversation
with China and Russia and all these other countries.
You separate the languages and the geopolitics and all these other things.
I'm pretty sure that a person living in China is just as scared dying from a nuclear weapon
or a synthetic biology virus as an American would be or a Russian would be.
They may want that to happen to us,
but not happen to them.
But what we learned with nuclear weapons
is there's no if or other, it was all.
Everybody suffers.
The whole concept of mutually assured destruction.
So in all these mad category things,
there's a path to basically to get cooperation.
And what's nice is then you at least have dialogue.
And once you're talking with people,
then you can build rapport.
And once you build rapport, maybe just maybe
you can actually start agreeing on more things
than just the things that kill everybody.
And you start getting to a world that's more peaceful.
Let's move into the bullet ants.
What was that?
Well, you know, everybody's got rites of passage and the problem with America in the non-military
traditions is we let them go.
You know, so you were a Navy SEAL, so you have BUDs, it's a rite of passage.
You go through something, it's shit, it's horrible. And you know, it's really scary.
But rite of passage has three properties.
First, when you hear about it,
you're like nobody wants to do it.
It sounds like the worst thing in the world.
Two, it's really survivable.
You know, if your rite of passage
has a high probability of killing you,
it's not really good rite of passage.
The vast majority of people, whether they fail or succeed,
they should be able to come out the other side unscathed.
And then three, it's a unifying thing.
So everybody goes through it, they have a bond now.
They're connected to that thing.
That's like, no matter if you're from a different country
and speak a different language,
you both go through that thing.
You just, you're like, he's my brother now.
We're together in this thing.
So I'm always fascinating where and when
you find these things.
And the bullet ant ritual was like
the perfect rite of passage.
First off, you have these ants and they're not small.
They're like this fucking big.
I think you saw the video and they're like, they're huge.
And they're terrifying when you look at them.
You're like, holy God, their stingers are huge too.
And they have a neural toxin.
And so I, you know, I went to clinic
and so I talked to my allergist
and I even hired a mammary oncologist,
like a entomologist that studies ants.
And I said, like, tell me about this neural toxin.
And they're like, well, it's really painful.
It's like, like, no, really, like, no,
it feels like you're on fire.
It's fucking terrible. And I said, okay, well, will it kill me? And they say, no, really, no, it feels like you're on fire. It's fucking terrible.
And I said, okay, well, will it kill me?
And they said, no, it's actually weird.
It's designed not to kill you.
It just makes it hurt like hell
and it incapacitates you for a bit.
But then the next day it's like nothing happened.
That's interesting.
So it's terrifying and the pain is indescribably bad.
And the entire ritual, when we went and
found the Satere-Mawai tribe, first we had to send an advance out there and we sent these two guys
down. One guy was a JSOC guy and the other guy was a 75th guy. And of course the 75th guy, he hit on
the chieftain's daughter and nearly created a whole problem. You're like, let's go, Ricky Ranger.
But anyway, that was great. But anyway, they build rapport with the tribe and. Let's go, Ricky Ranger.
But anyway, that was great. But anyway, they built rapport with the tribe
and the tribe's like, okay, we kind of like you guys.
Yeah, right, you can do the ritual.
So they said, come by this time and we'll set it all up
and we'll have you actually go through it.
So then we had to figure out how to get to them.
So we had to sail up the Amazon River,
we rented a boat, and then we went to the tribe
and they were incredibly hospitable,
but you could tell that it was a psychological game
as much as it was a physical game.
So everything they did was just to fuck with you
and just make you not wanna do it.
They're like, all right, let's go collect the ants.
And at first you go collect the ants,
you see all these ants are crawling up,
and actually the way you collect them, it's not really safe.
You're trying to get them into that damn tube,
and while you're doing it, they sting you
and things like that.
And you feel the insane pain, but it's only one sting.
Remember, you put your hands in the glove
for like 10 fucking minutes
and they're stinging you, stinging you, stinging you.
So you're thinking,
God, if it hurts this much, this one sting,
what will 1,000 stings feel like?
This is so bad.
So then you do that.
Then they're like, okay, well, we gotta like,
make the bullet ant gloves. So you have to go find these weird leaves and then you do that. Then they're like, okay, well, we gotta like, like make the bullet ant gloves.
So you have to go find these weird leaves
and then you grind them up and you put them in water
and it acts as a sedative.
So you pour the ant tube
and all the ants go inside the water
and the ants go to sleep.
And then you grab the ants and you one by one
put them into the glove, you know,
and getting them in there, you know,
and it's a whole process.
And the ants are not fully sedated, so they wake up. And as you're putting them in the glove, you know, and getting them in there, you know, and it's a whole process.
And the ants are not fully sedated.
So they wake up and as you're putting them in the glove,
at least one of them is gonna sting.
So you feel that pain, it's like, fuck.
So then after you have all the ants in the gloves,
you put them on, they're like, hey, let's go to lunch.
You're like, what the fuck are you talking about?
I don't wanna eat lunch.
Come on, man.
I just wanna get this over with.
They're like, no, no, no, let's go eat lunch.
We've got some fish for you. You guys are going to like this.
I'm like, all right, jungle parasites are great. Let's do it. So, so we go, we go and we get,
we eat the fish and nobody really wants to eat. And we're all looking at each other like, what the
hell have we gotten ourselves into? And he's like, all right, all right, guys, it's meditation time.
You just go off for an hour, fuck off and just like think about what you've decided to commit
yourself to. So we're all just sitting there like, what is going on? And fuck off, and just think about what you've decided to commit yourself to.
So we're all just sitting there like, what is going on?
And our hands hurt like hell because the ants have already stung us a few times and things
like that.
And we're just like, oh, this is horrible.
I just want to get this over with.
And they're like, well, you could leave at any time if you want.
Like, no, I came to the Amazon, god damn it.
We're going to do the fucking hands.
So it's called the tucandera, it's the name of the ritual.
So anyway, then finally, you get in your underwear or your shorts and they paint you.
So you go out there and the shaman comes over and paints your hands black because your hands
get really messed up after they bite it.
So you don't really want to see how messed up they are.
So if they paint it black, maybe that solves the problem. And then they start dancing.
And then after they dance, they say, all right, you ready?
You say, go up there and you put your arms up and then they put the gloves on.
And what it feels like is a sewing machine with a hot needle, just going,
and there's ants all in the thing. So that their heads are out, but their butts are
woven in and they just thingy like this, you know, it's like a
stinging machine, both hands. So two sewing machines going like
multiple needles, you know, and it's just like, fuck. So I knew
the internet was going to watch because we recorded it. So I was
like, I gotta be a stoic motherfucker for this. So so I
was if you see the video, I'm all like, yeah, but that, uh, that,
that ranger guy that went with us, you could see his face. He's just like,
it was just great. But how I trained for it was that I bought these shock
keyboards, these nail boards, uh, in the office. So they're like wooden boards
and they have nails sticking out and I would step on the nails for 10 minutes
and just stand on these, these nail boards and they have like beginner, medium, hard, juicy and so like you know and it's just
how many nails are there so the beginner ones have lots of nails so there's a lot of surface
area for the nails so it's it's like a bed of nails you can stand on it but then as you get to
like the more aggressive ones there's fewer and fewer nails so they get deeper into your feet and
it hurts like hell. So I took all these auto hypnosis courses or you can use like
hypnosis for pain management and kind of hypnotize yourself not to feel pain. So I
said okay I'm gonna do the auto hypnosis I'll stand on the nail boards I'll
start in beginner and I'll keep going until I can deal with that then I'll go
to the medium then I'll go to the hard then I'll go to the juicy and I did for
a whole year like every day you know attime, I go and stand on the nail boards and, uh,
and do this whole thing and make it, man, this sucks, man, this sucks.
But then I got better at like dealing with that immediate pain to a point where
like, you can stab me for 10 minutes straight.
I doesn't fucking matter anymore.
I'm good.
So when I had my hands in the gloves, I was like, it's not bad.
This is good.
This is good.
Here's the problem.
It's a neural toxin.
It's just the stupid thing, you know, like the Robert Downey Jr. yelling at me in Tropic Thunder.
It's like, okay, the hard part is not being stung.
The hard part is when the neural toxin kicks in, it's like rolling fire.
It starts coming up your arm and it takes hours
for it to take fully effect and goes all the way up your arm,
goes into your chest, goes into your face,
the tip of your dick, your toes, your head, everything,
everything, and it's like a throb.
So on fire, not on fire.
On fire, not on fire.
So we're all back at the boat.
I'm sitting with these guys like Rangers, the 18 deltas, all this stuff.
And I was just looking at them.
They were looking at me and they were like, boss, you got some fucked up ideas.
They were like, we getting drunk?
It's like, we're getting drunk.
So we just started drinking and, and we were just, we were just in hell. The first six hours, it just, because
the other fucked up thing is it doesn't stop. Normally like you reach a peak and you're like,
okay, okay, now it's getting better. First hour, oh God, this is bad. The next hour, like, oh,
it's even worse. And like the next hour, oh God, it's so bad. It just keeps building and building
and building and building. And it took six hours for it to reach its peak.
Damn.
And we had a PJ with us and he was also a PA.
So after he got out of a PJ, he became a PA.
And so he was kind of like our guide
to make sure we didn't die.
And so he'd check our vitals every hour
and then we kept an index on pain.
He's like, how you doing?
How you doing?
We're out of six.
How about now?
Out of seven.
What about now?
It's getting there to eight. Like, how about now? Out of seven, what about now?
It's getting there to eight, like what about now?
It's a nine.
And it just got worse and worse and worse.
And eventually at six hours, it's like,
okay, I think this is as bad as it's gonna get.
Cause I said, I think I'm gonna die
if it gets any worse than this.
But then, you know, it got better gradually.
Like a long tail, it took 24 hours
for the whole fucking thing to wear off.
But here's the craziest part. The next day I woke up, no pain.
And I could move my hands and do the whole thing. The only thing that was there for a while was
the black ink that they used, it was about two weeks on the hand.
No kidding.
Yeah, yeah, so that's the perfect rite of passage right there. If you could bottle that shit and do
it to every high school student, that's great. And-
Get her to do it again?
Oh yeah, and they do it 20 times. Are you really? Yeah, yeah, they do it 20 every high school student. That's great. You're gonna do it again? Oh yeah, and they do it 20 times.
Are you really?
Yeah, yeah, they do it 20 times.
20 times. 20 times.
It's a rate of passage.
So they have to do it again and again and again and again.
But in the actually when we did,
the Chieftain's son did it with us and his friend.
But it's just a great rate of passage.
And what was cool is like,
it was like this huge sense of accomplishment.
Cause like for a whole year, we really thought about it, we trained for it.
And then I looked at all the guys and I'm like, you know, we're Satteri Mawai warriors
now.
And it's like, yeah, we're Satteri Mawai warriors now.
It's like, yeah, we're part of the tribe now, right?
And of course, never want to do this with soft guys, because immediately we started
talking like, how could we make this even more painful and more dangerous?
And we started going through all the variations.
We're like, you know, maybe if a cold plunge was involved in
some way or a darkness component.
So instead of just like letting them sit around for an hour,
what if we put them in a dark cave for like 12 hours?
And I said, you know, what would be really cool is you put
some snakes in that dark cave.
Oh, shit.
You know, cause you can't see the snakes,
but you can feel them and hear them.
And that's really fucking with you.
And they're like, yeah, it needs a fire component too.
So we spent the next like five days in the Amazon just, just talking about it.
You know, it was like, what if we did this?
Yeah, I think, I think that's a good idea.
Let's, let's, let's do this.
And we're like, you can't modify that.
Just screw you, man.
We're North Americans to Terry Mawai.
Those guys are South Americans.
We do things differently as North American to Terry Mawai guys.
Damn.
Damn. When was that? Oh, that was just recently. That was, I think like March or April.
Oh shit.
Of this year.
I realize it was that.
Yeah. It was crazy because I did the Amazon. I was in the Amazon for nine days and I
immediately had to go to a conference afterwards. So I was at a conference and I'm like, hey guys,
I gotta go. I gotta go to the Amazon and do a thing. Then I went down to the Amazon. As soon
as I was done, I came back and it was like at another conference, I gotta go. I gotta go to the Amazon and do a thing. Then I went down to the Amazon. As soon as I was done, I came back
and was like at another conference, like speaking.
And I was like, all right, I gotta do a thing.
I think I went to consensus after that
and I was moderating a panel with Eric Trump.
It's like, so where were you at?
Oh, I was just in the Amazon doing a thing.
Don't worry about it.
I was like.
Wow.
Yeah.
Let's finally, let's talk about the clinic.
Yes, sir.
How did that start?
Well, as I mentioned, I have the medicine tradition
in the family and 70 years of medicine.
So I didn't become a doctor,
but I always wanted to do a medical thing.
And why I didn't become a doctor was that
I hated that medicine had two big issues.
One, as a practitioner, it's a person by person game.
And I like systems.
I like treating millions of people
or tens of millions of people at the same time
because I want to maximize impact.
The second thing I hated was that the system
had become stuck in an economic state
where it's basically treatments and not cures.
So you go see your doctor, hey, I have this thing. Well, here's this pill. Is it gonna cure me, doctor? it's basically treatments and not cures.
So you go see your doctor, hey, I have this thing. Well, here's this pill, is it gonna cure me, doctor?
No, no, no, no, but it'll like manage the decline.
It'll get a little worse every day,
but slightly less worse every day.
But I'm coming to your doctor like, fix me,
fix me for God's sakes.
And like, I'm sorry, we don't do fixes here.
We haven't cured things in a long time in medicine.
So just take that pill and best of luck.
So like a great example would be like,
let's say you're like an 11 Bravo or something
and you serve in Afghanistan,
you have a really heavy rucksack, fucked up your back.
What are they gonna do?
They're gonna tell you to get back surgery,
they're gonna tell you to take painkillers,
or you can go and do yoga and Pilates and fix your back and a lot of people after they do it,
the pain completely goes away.
So you go to a doctor, they tell you to do the yoga
and Pilates and the physical therapy and these other things.
No, they give you the pills and if that doesn't work,
they give you the surgery
and then that never works for these people.
So that's medicine in a nutshell in 2025,
it's really fucked up.
So what you'd wanna do instead is say,
let's build a medical institution
that is a bastion of good healthcare, integrated healthcare.
So lifestyle medicine with allopathic, traditional medicine,
put those two things together for a community.
In this case, Gillette, Wyoming.
So there's 13,000 patients
in a population of 35,000 people.
And we have 40 providers.
We have all the ologies.
We have internal medicine, we have nephrology
and cardiology and neurology and soon to have pulmonology
and dermatology and et cetera, et cetera.
So we have really top-notch physicians.
But if you have that and you have a vertically
integrated system, meaning you own the radiology
and you own the lab and you own all the diagnostic
equipment and you have your own pharmacy
with a compounding pharmacy,
you have a perfect vertical to do medical experiments.
So then you build a biotechnology company on the other side
and you start looking at a lot of stuff
that is regenerative in nature, not cure,
and not treatments, but cures.
So what you do is you say,
what can I do to get the body to heal itself?
And what can I do to give you something
that fixes your problem permanently?
So I'll give you some examples.
We're right now getting ready for an FDA trial
because everything we do is rigorous,
so we do FDA trials.
And we're gonna take fat from people,
adipose-derived mesenchymal stem cells.
So your stem cells, your adult stem cells
that are in your fat, you have three primary sources
of them as adults, blood, bone, and fat.
You get them from other places,
but those are the big ones to get them from.
And we take your fat with liposuction
and then we culture expand it, we grow them,
and then we re-inject them.
And we're gonna run it for a year,
three to four injections,
and we're gonna pair it with hyperbarics.
Hyperbarics are these pressure chambers,
you go inside of them, pure oxygen, high pressure.
Why hyperbarics?
Because when you go to a hyperbaric environment,
for some reason, epigenetically,
over 900 genes are silenced or activated,
and your body enters a hyperregenerative state.
So it tells your body, dump all the stem cells into your blood
and start fixing shit, programs all of them.
So Jay Leno is a big classic car guy
He's working on his car exploded in his face and he turned into two-face and burned off half his face
So they treated him they went to a hyperbaric chamber now
He's almost fully healed so you can see those before and after pictures of Jay Leno
So there's amazing regenerative capabilities with hyperbarics
But the mechanism of action is stem cells and programming those stem cells to be really regenerative for you.
So our hypothesis is if we pair hyperbarics
with exogenous stem cells,
it's like adding gasoline to a fire.
It dramatically accelerates the healing effect
of these types of things.
But also inadvertently, what we're doing
is we're creating a platform to learn and think about
navigating the stem cell space.
And what's nice is autologous adult derived mesenchymal
stem cells, they're yours.
There's no chance of rejection.
They're ethically sourced.
There's no babies coming out of your belly.
I hope not.
You know, it's just fat.
It's like, we got a lot of it.
I got a lot of it.
We're okay, you know?
We can sacrifice some of that.
And it's infinite.
Once you have them, you can culture expand them
for the rest of the life of the patient. So you have a platform to work with the patient and
then over time you can do all kinds of things to hit them with a yellow light
to accelerate their metabolism or maybe use umbilical cord blood exosomes to
help culture expand to make them become younger and actually more vibrant. Mess
with the electron inside the cells because every cell has an electrical
signature and there's some stuff you can do to make them differentiate to different tissue types
or co-administer them with peptides.
There's hundreds of things that you can do to these cells.
But once you have that baseline,
then you can start growing from that baseline
and you can start targeting organ systems.
For example, we can look at peripheral neuropathies.
Those are things that tend to come up after cancer.
You get cancer, you do chemotherapy, maybe the chemo cures you, but you're jacked up. You know, you got the tingly
toes and fingers and you just, anything that's hot or cold now is just so unbearably painful.
And you go to your cancer doctor and they're like, oncologists, what do I do? And I say,
you're cancer-free. He's like, yeah, but what about neuropathy? You're cancer-free.
Get the hell out. We don't want to talk to you anymore.
We solved your primary complaint.
What if I can use stem cells and hyperbarics
to actually regenerate those nerves
and actually fix those problems?
Now you don't have the neuropathy anymore.
Or what about TBIs, which are just a persistent issue?
Well, one of the things we can do with these stem cells,
because we have such a powerful MRI,
we have a three Tesla MRI with AI upscaling,
is we can use speotagging,
and that means the superparamagnetic oxide.
So you put these tiny nanoparticles of iron
inside the stem cells,
then you inject them,
and when you take an MRI,
they light up like a Christmas tree.
What does that tell you?
It tells you where they go.
So if I inject them here,
do they end up here,
or do they end up here,
or do they end up here?
You know, where do they go?
Are they just in the lungs? And what if, now that here, you know where they go Are they just in the lungs and?
What if now that I can find out where they go I can co-administer them with certain chemicals and maybe by doing that
I can steer the direction of where the stem cells go
Maybe I can get them to cross the blood-brain barrier and get into your brain
Because it'll light up like a Christmas tree there or maybe your liver because you have cirrhosis from you know
Something or whatever or maybe your knees, who knows?
So that's kind of the next stage of the platform
is programmability.
Can we program them chemically or electrically
to go to certain areas,
and then we have the equipment to track them.
So yeah, it'll be years of research,
but we have the patient population.
We have a ton of people that have cancer.
We have a ton of people that have COPD
and their lungs are jacked up.
We have a ton of people that have TBPD and their lungs are jacked up. We have a ton of people that have TBIs,
like look at the rodeo stars.
They go bull riding and they fall off their bull
and I get 40 concussions, you know,
and they can't remember their own damn name at 50.
It's tragic when you see all these things.
There's an unlimited depth of people that are broken
and they want to be fixed.
And this idea that I can take your stem cells
and culture expand them and modify and do things to them
and then use that as a basis to regenerate you
and actually get you to a younger state
or get you to a healthier state and expand your health span.
It's so cool to be able to pursue that
and be able to do that under FDA supervision,
meaning that it's just not like mad scientist shit.
It's actually structured experiments and you go through phase one, two and three and you take
people along the entire journey. That's why we built the clinic, you know, and it's very conservative.
There's a lot of people in anti-aging that are doing much more aggressive things like something
like induced pluripotent stem cells using Yamanaka factors or Dave Sinclair at Harvard,
who's like literally reprogramming
the epigenome and he's taking mice that are twins and making one old and one young and
vice versa and these things.
It's crazy stuff, but that's really difficult stuff.
And the thing is, it's like you are you because these cells made you that way.
So they're already enough to do a lot for you.
And there's animals in nature that are actually biologically immortal.
A lot of people don't know that.
Tertopsis dorni is this jellyfish.
If you Google immortal jellyfish,
you see this lovely picture of it.
And when it gets old, it says,
I don't want to be old anymore.
So it forms a cyst and regenerates itself
and it's young again.
No shit.
Yeah, there's shit in nature.
There's even this crazy guy named Shin Kubota
who's over in Kyoto, Kyoto University.
And they call him the jellyfish man. And he's spent his whole career, he's even gotten crazy guy named Shin Kaboda, who's over in Kyoto, Kyoto University, and they call him the jellyfish man,
and he's spent his whole career,
he's even gotten divorced over it,
like studying jellyfish and dressing up as jellyfish,
because he's obsessed with this immortal jellyfish,
and he wants to understand, like, why is it immortal?
What is it doing to be immortal?
And he's chasing that immortality call.
So to me, it's so cool that these things exist,
and if there's something in nature that already does it,
well then human beings can discover this.
And there's plenty of super regenerative animals,
like X waddles, for example,
they run around and you chop off their arm,
they grow another arm.
Lizards chop off their tail, they grow another tail.
You know, they're in nature.
It's not a hypothetical, it's here, it's there.
Genetically, they're not too different from us.
So get a stem cell, figure out how to program that,
how to work with that as a platform,
and then bring the AI in, and then bring the science in.
And then year by year by year,
you gain a better and more mechanistic understanding.
And then what you can do is a whole class of diseases
can be corrected because you can now regenerate things.
That's stage one.
Then stage two is to get really good at the electron
and get really good at the stem cells
and then you can do tissue engineering
and you can actually start growing organs
and other things like that.
So you can have a bioreactor and you can grow skin
or a bioreactor and you can grow a gallbladder
or grow a heart or grow a kidney or liver
or something like that. You can just grow these things and then you can heart or grow a kidney or liver or something like that
You can just grow these things and you transplant them in so when you have a bad heart
You don't have to be on organ replacement list and you know
Hope to God that you have a compatible donor you just grow a new one and put it in the person
How long would it take to grow new one? Well, that that's the hard part because the issue is
DNA contains the information of what you are, but it doesn't have spatial information of like how to make it
Like your leg goes here and your hand goes here these types of things
So there are different processes and so you can't just take stem cells and make them differentiate into an organoid and say, okay
Well, this is a heart cell or this is a brain you can do that, but it doesn't turn into a brain
It doesn't turn into a heart. So it's an open question right now in organ growth of how do you grow an organ to replicate
an adult organ with the same size and shape and function of that.
But it doesn't take a heck of a lot of time.
If you're doing the right growth factors, it's a matter of weeks to months to grow something
like this in a bioreactor.
And that's one approach.
The other approach are called xenografts, where
they take pigs and they genetically engineer them because they're very close to humans.
In fact, we used to use pigs for insulin before we genetically engineered E. coli to do that.
And they actually make pig have your kidneys or pig have your heart or something. And they
can take the kidneys out of the pig and put it into human because they've been genetically
engineered to be not rejected by humans. It's called a xenotransplant.
So, you know, these things exist.
But I like the bioreactor more because I don't think we should have kidney pigs.
I mean, I like pigs. They're nice.
But anyway, so that's like stage two.
It's like, can you grow tissue?
And then once you have that, then I can fix your broken parts or regrow limbs
or, you know, other things like that.
And then stage three is the gene engineering.
And there, the lowest floor is called a plasmid.
And there's a company called MiniCircle down in Roaton
that does this a lot.
And you could actually use plasmids
to make pretty much anything.
They're like little molecular factories.
So I suffer from gout.
344 million people do.
It's a genetic disorder.
And it means my body doesn't process uric acid properly.
And so what ends up happening is the uric acid over time,
if I don't get it out of the system through some means,
like allopurinol, it'll accumulate in the joints,
and you have gout attacks,
and they flare up with crystals,
and it's super fucking painful.
They just stab you when you're walking around.
It's one of the most painful conditions you can have.
And if you don't treat it, it gets progressive.
So it starts from the big toe to the joint,
to the knee, to the hip, and then eventually your hands
and the whole body.
So you gotta solve it.
Well, there's a chemical called,
it's an enzyme called uricase.
And humans don't make it, but it exists in nature.
And it digests uric acid and converts it
to a water soluble, kind of like vitamin C where you just pee it out, allotonin.
So what if I made a plasmid that made uricase?
Then I can inject it to a person who has gout and now you have a natural way of processing
the uric acid so you never have gout.
It's basically a cure.
It's pretty cool.
And so there's all classes of diseases where your genetics don't allow you to make something
because you lost the lottery and they're slowly killing you.
And so gene therapies are coming online
and what's really cool is like within five to 10 years,
we'll actually start having those treatments available
and they're there.
And then you can also use it for therapeutic interventions
like the mini circles using it for Falstatin 344,
which is this this
Chemical that basically allows you to build muscle it turns off muscle inhibition So if you see like pigs with it or cows that you can google like muscle pig
They see like this pictures just fucking jacked up pig
It's just looks like a damn beast and so you so they actually that's their first product is the muscle pig
Plasmid so the inject the person with fall fallastatin and they just start building muscle like crazy with it.
And what's cool is the plasmids only last like a year or two and you can turn them off.
You're using antibiotics. So they take it and kills the plasmid.
Wow.
Yeah, it's just crazy stuff. Well, the next thing they're looking at is TRT,
testosterone replacement, and they're looking at HGH, human growth hormone, as another option.
So maybe that's a better way than, you way than dosing or these types of things.
Because the next step with the plasmid is can you create an internal regulation system
so like insulin regulation with your pancreas, it makes it when you need it and then it turns
it off when you don't need it.
So you get a constant level instead of having to inject yourself with something with it.
But once you have the platform, you kind of build your way up there and you get there.
But the foundation of the platform is lifestyle.
You have to eat right, you have to exercise,
you have to sleep right,
and you have to have good mental health.
If you don't, you're dead.
And then the next level up is saying,
okay, regenerative intervention.
So hyperbarics and stem cells.
And then as you move up, there's replacement parts.
And as you move up, gene therapies
for these types of things.
But you can just kind of walk the stack.
Every step of the way though you get two health span, longer lifespan and more comfortable
life throughout.
So it's not to make you immortal, but it's to say, hey, in your 80s you're not a frail
person scrunched over and you can't move.
In your 80s you're walking around, you're having fun.
This is how Peter Atiyah thinks about life.
He says, hey, you should think about the proximal decade of your life, the last 10 years.
And you should say, okay, what do you want to do in the last 10 years of your life?
You want to be able to walk by yourself without a walker?
You want to be able to swim for half a mile?
You want to be able to feed yourself and clothe yourself?
You want to be able to take showers unassisted,
you write those things down and there's a formula
and you have to crank up and say,
okay, how much muscle do you have to enter your 50s
and your 60s in?
Because it's really hard to build muscle after your 60s.
What type of foods do you need to eat?
What type of sleep do you need to have?
What type of other interventions do you need to do?
And then that'll tell you basically
what you need to do every day
to be able to get to that point in the proximal decade
Well, I think of it that but I say well You know, maybe I'll give you a little bit of help because not everybody's Ned Flanders and they're gonna fucking do everything right, right?
You know, sometimes we like our hard whiskey and fast women and you know bad stressful situations
The the best ex-wife I never had right sometimes we like that stuff
So the stem cell part is about correcting the problems
that we had and hyperbarics is about correcting
the problems we have.
And what's really magical about it is the AI
is helping tremendously.
You know, we're able to do literature review,
especially from the Chinese papers,
because the Chinese have so many of these guys
working on this and they just trained more scientists
than we did.
But you can't read the papers because they're in Chinese
or even when they're in English,
they're very inaccessible.
So we were able to take pretty much every paper
ever written in China
and every paper written in other jurisdictions
and run it through AI models and say,
well, who's working on this thing
and who's working on this thing
and what were their experimental results that they got?
And it gives you some indication of what's working
and what's not working.
And it's already paid huge dividends
and a lot of the research that we've done.
And I'd say just the last two years in particular,
we've probably done five or 10 years
worth of desk work for this.
And I have a lot of MD PhDs that work for me.
So they do the translational medicine.
So they're able to take the basic science
and then translate it and say,
this is what would be required for a human trial.
And here's how many patients you need.
And here's how the FDA is gonna get happy,
and these types of things.
So it's super exciting to be able to start that,
and that's gonna be probably my legacy company.
It's a very slow burner.
Crypto's fast and exciting and chaotic and crazy,
and the mathematics stuff, which we kinda talked about,
but I didn't mention the Hoskinson Center
for Formal Mathematics.
That's like a big passion of mine.
But the medicine thing is like the family business.
This is what my grandpa did, it's what my dad does,
what my brother does.
And I really want to see 100 years from now,
200 years from now, say this was the nexus
of a new paradigm of medicine,
where we pulled a lot of different ideas together
and we pivoted medicine back from treatments to cures.
We got people thinking, how do I fix your problems, instead of how do I manage your
problem and create an economic system where that's profitable.
Wow.
You have got a lot going on.
Yeah.
You got a lot going on.
How do you, I mean, all these are amazing things.
How do you, I mean, how do you, how do you know what to put your energy into?
What's the balance?
Well, I'd say there's two parts to that.
One is how do you make more energy and time?
How do you better manage and organize your life and your time so that you can do these
things? in your time so that you can do these things. And then the other thing is
you have to have an ethos that guides you
so everything organically kind of clicks together
and fits together to one comprehensive framework.
So things are a natural extension of these.
Like when you look at Elon Musk,
he seems like insane and chaotic from the outside.
But when you integrate things together,
you start realizing there's a cohesive picture
behind all of his startups.
Like, why does he have the boring company?
That doesn't make any sense.
He's drilling all these tunnels underground.
Like, why would he do that?
Well, if he wants to go to Mars,
humans aren't gonna live on the surface of Mars.
They're gonna live underground.
So you're gonna have to build massive tunnel complexes
underground to be able to go through.
Well, why does he have a solar company?
Why does that make any sense?
Well, he's gonna have to be pretty good
at building power plants, right?
So why don't you build large solar fields
because there's no real estate problems on Mars.
So you can build like a five mile solar field on Mars
if you wanted to, right?
Why is he building a robotics company?
Why does he have all these Tesla bots
and these types of things?
Well, he has all those Tesla bots
because you're gonna wreck your workforce if you're on Mars.
You're not gonna have five million humans show up overnight
But you can ship millions of robots ahead of time and use them as your labor force to help build up everything and they don't
Need atmosphere or any of these other things. Why does he have an AI company?
Well, you need some sort of intelligence to coordinate run and terraform the planet and do all these things
Why does he need a battery-powered car company?
Because you're not gonna be running internal combustion
and there's no fossil fuels to consume on Mars,
so you need battery-powered cars
to be able to drive them around.
So it's actually coherent when you see that entire framework.
He probably like wrote it all down while high and drunk
and burning man or something like that,
and he's like, this makes so much sense, I'm so smart.
And he's just got like this pure force of will,
so he's just doing it and just having fun doing it.
But if you look at it from the outside,
everything looks chaotic and crazy,
like why are we doing all these things?
Then when you look at the energy,
where do you make energy more time,
the single most valuable thing you can invest in
if you're young is a second brain,
a PKM, a personal knowledge management system.
You have to be very good at note taking and making, and you have to be very good at organizing, you know, a PKM, a personal knowledge management system. You have to be very good at note taking and making,
and you have to be very good at organizing what you know
and learning how to learn.
You have to be exceedingly good at saying,
okay, there's software for this,
like Obsidian or Notion or Evernote or OneNote.
It doesn't matter the particular note system.
You have to be really good at saying,
oh, how do I put my knowledge somewhere,
the things that I know and link them
so that I can find them again with context.
It's not good enough to write something down
because what if you find a handwritten note
from 25 years ago, you look at it.
Who the hell is Seth?
You know, what was he doing with that donkey?
What the fuck is this note about?
You know, I don't know.
You know, it's like, it's not meaningful.
But if you have linked knowledge,
then that name would been linked to a person
and that's linked to another thing
and that donkey's linked to another thing
and it's in, oh, Tijuana, okay,
now I know what was going on.
So you have your linked knowledge.
So knowledge linking is so powerful
and it's how your brain thinks.
If you look at how memory formation works,
it's kind of a three stage process.
And, you know, first is the encoding.
When you read something, you know,
do you encode it properly?
And that's the linkage of that to other things that you know.
And then the next stage is getting proper sleep
because while you sleep, memory formation is happening.
And then the third phase is recall.
So how do you pull it out of the system?
So your PKM has to mirror how your brain works
as a human being.
And we do the exact opposite
with note-taking and knowledge systems.
We put them in wikis and we put big deep hierarchies
and things like that.
And just for a moment, if you smell something,
do you go to your folder, like folder of smells
and go navigate down
and work your way through a bunch of like characteristics
of the smell.
Maybe if you're like a sommelier or something,
I don't fucking know, but no,
that smell is linked to a place and a location and a time
or things like that, that's linked knowledge.
So it has to be a bottom-up knowledge system.
It has to mirror how the human brain cognates
and how memory formation works.
And then you have to have a metadata system around it,
whether it's Latch or something else, that allows you to find things with context.
Now if you have that, what ends up happening is you've made time for yourself because you
can deal with basically infinite complexity.
You just have rooms in your second brain.
So you know, I'm in clinic mode, so here's my clinic room.
I'm in synthetic biology mode, So here's my synthetic biology room
I'm in cryptocurrency land. So here's my cryptocurrency thing and those rooms are linked to each other
So maybe there's this thing in medicine that's linked to cryptocurrency private medical records
So fourth generation cryptocurrency privacy and identity
Okay
So well, how do I connect that to this, and how do I use a blockchain
to solve my medical record system thing here?
Well, now they're cross-linked, they're there.
And if you, at the time of the note making,
you link that, that it's there forever
inside your second brain, and you never forget it.
You see, so you can come back 25 years later
and recover knowledge.
So there's a whole system for this called Zettelkasten,
which was Ludeman's system, and there's a book, how to take smart mounts that talks about it.
But there's thousands of profits
in this personal productivity world.
Nick Milo is one and there's Guy Zoltz
who's a weird Bulgarian guy.
But you know, it's all the same roads,
the same destination,
which is you create a second brain and you think into that.
Then recharge and rejuvenate,
you can't just go, go, go, go, go.
You have to have hard and soft, hard and soft.
You have to get into a cadence in life
where you're able to give yourself the space to recharge.
And in many cases, that means doing nothing.
You know, you're literally just gonna sit down
and fucking veg out.
And the problem with the type A personality is you think that's like a mortal sin. You're literally just gonna sit down and fucking veg out.
And the problem with a type A personality is you think that's like a mortal sin, like
you're sending orphans on fire or something like that, like a Viking raider boarding up
to church.
And it's like, no, it's okay.
You've done all these amazing things in life.
You didn't get there by just killing yourself every day.
You have to take a step back and let it drift and let yourself vege out
and then rejuvenate and recharge.
And then there's a habitualization of rejuvenation.
That's why I have the ranch.
You know, I take the Blackhawk up to the ranch, we land.
I'm there, I vege out for the weekend.
And I'm just driving around in my ATV
and I see my bison, they're walking around.
I look at them, they look at me and I say,
you're gonna kill me today?
And they say, no.
And I say, all right, all right, just keep driving around.
Maybe I see a mountain lion.
Only did it once.
Just hanging out on the road, they look at me,
I look at them and I'm like, come on guys,
you're supposed to be ferocious.
And they slowly walk away and like, oh, fuck you too.
And so, but that's recharge, right?
And if I wrote down on a piece of paper,
what did I accomplish today?
It's like nothing, absolutely nothing.
But that then enables me to get back into the other mode,
which is the hyper-ferocious and we're gone, going, gone.
And when paired with a second brain
and you have that, you're good.
But none of that means anything
if you don't have motivation
and you only have motivation
if you have an overarching threat of your life.
So Musk has one and that's why,
no matter what the hell he gets hit with,
he just keeps going. And that's why no matter what the hell he gets hit with, he just keeps going
and that's why he keeps building rockets and all this other stuff because he set an impossible
goal and he's trying to make it possible.
So I set a goal saying I want to change the economic, political, and social systems of
the world.
I think that I have a real shot of doing it using cryptocurrency technology.
So if I build enough technology and I get enough people to drink the Kool-Aid and get
into this paradigm,
they'll say, yeah, actually there's a there there.
We should go and do that.
So then every day I wake up, I'm always going back to that
and I'm asking like, how did I move the chains a little bit?
So the other most important thing,
I tell young people to do this all the time,
journal is the most powerful thing.
You don't think it is, but God, it's so powerful.
It's just, it's a dialogue with yourself.
And you just go out there,
you don't have to be goal directed,
just write stuff down.
It could be a sentence, it could be a paragraph,
it could be a fucking novella.
Congratulations, you're, you know,
you're gonna be a novelist.
Doesn't matter.
What matters is the dialogue on a daily basis.
Because it's a check-in with you.
You're saying, how do I feel?
You know, where did I fail?
What am I doing well?
What am I not doing?
What am I afraid of?
What am I not afraid of?
And it's so therapeutic.
Every research study that's ever done by psychologists
and psychiatrists show that when people journal,
their mental health is measurably better
than when they don't journal,
especially over a protracted period of time,
five years, 10 years, 15 years.
And it helps you start building that muscle up
to help you understand an overarching narrative
because you can read all your journals,
especially with AI, and you can say,
the last 10 years or 15 years, what's the theme?
Like, you know, the spaces in my life,
oh, that's the cryptocurrency phase of your life,
or this phase or this phase.
Like if Reagan, Reagan was a brilliant guy
and he wrote tons of letters,
but he also journaled a lot,
and he had phases in his life,
and you could clearly see it in his writings.
Like he's the radio broadcaster phase,
and this is the actor phase,
and this is the screen actor guild phase,
and this is the GE spokesman phase,
and this is the political Reagan phase
at the governor level,
and then the political Reagan phase at the president level,
and this is the Reagan phase
post presidency dealing with Alzheimer's.
And every step of the way,
you could see the transformation
of the person and his cognition,
and you could see him grow as a human being along the way.
What he talked about, his perceptions and these things.
And what's nice about that is it shows
how much you can accomplish as a human being in a decade.
You know, we overestimate what we can do in a year.
We vastly underestimate what we can do in a decade.
I was broke 10 years ago.
I'm billionaire today.
And nobody knew who the hell I was 10 years ago.
Now I'm a pretty well-known guy,
million Twitter followers,
and a lot of people listen to me, for better or for worse.
But there was no one moment where everything
just magically changed and I instantly got famous.
It was just a gradual thing.
And the resolution is too low for any one moment,
but if you look at the totality of all the writing,
you can get there.
And that is how you derive meaning.
Once you look at these things, you can kind of take
the time during those
vejjout states to just consider it.
But once you have the meaning, you're fanatic.
And then you have infinite energy.
Because no matter how weak you get,
you can go back to that.
Now it's just like if you do something extreme,
like how do you survive buds or an ultra marathon
or whatever the hell it is.
It's not how strong physically you are.
You could have been an Olympic swimmer
or an Olympic champion
and you have all these amazing skills,
you're still gonna ring the bell.
You have to have some why that's connecting there
that burns within you that's transcendent of just pure ego.
Like I'm a badass.
Because they do everything their power
to destroy that image of you as a badass.
And if they think that you still have that image,
they'll make you a sugar cookie, they'll just break you.
And that's what they're supposed to do.
So even after the image of you as a badass is gone,
there's gotta be something that's left over
that's a screaming, burning why within you.
And if you have meaning in your life, you have that.
So then you can do anything at that point.
And that's just a question, who are you doing it for?
Are you doing it for yourself,
or are you doing it for the world as a whole?
That's the difference between a good person and a bad person.
I talked to a philosopher once, he said,
Charles, you know what is the ultimate question in reality?
I said, what is it?
Will mankind, on average, return the shopping cart?
I was like, what the fuck are you talking about?
He said, well, think about it.
You know, you're at Walmart, you're going out to your car.
You can just leave that shopping cart in the parking space right next to your car and there's
no consequences to it if you do.
It's kind of a shitty thing to do to the basket guy, but not really.
It's kind of his job.
If you return it, nobody thanks you.
You don't really get any brownie points for it.
So a virtuous society is a society where all the baskets are returned.
And an evil and moral society is a society where none of them are returned.
And one of these days I'm going to fund a study where we're just going to use drones
and go to Walmart after Walmart and go to all the broken neighborhoods and all the happy,
pleasantville neighborhoods.
And I'm going to see the ratio of know, that have been returned versus not returned.
Cause it's an interesting thing.
But I think there's some truth, you know, to all of that.
It's like, it's those daily personal grind, you know,
that you come back to and those little victories,
like did you go to the gym today?
Did you like Jordan Peterson?
Did you make your bed today?
You know, did you come the lobster?
You know, those little wins that you do
that accumulate over a lifetime
and that excellence then permeates and it becomes part of it.
And then the directionality of the wins, the meaning is like, who are you doing those things
for?
Well, Charles, this has been a fascinating conversation.
And I want to leave with one last question. If you had three people
to recommend for the podcast, who would that be? Oh, that's a good question. Well, you got to have
Ben Lamb on. Come on. He's Mr. Direwolf. And I'll call him and be like, why you... We got to have
Sean Ryan. Come on. Have you ever interviewed Avi Loeb? I have. Okay. I have, about what we just talked about.
Okay, good.
So you know the whole Avi Loeb experience.
He's a great guy.
I love that guy.
Oh, he's so good.
He's so good.
Spend two weeks on a ship with him.
You'll know everything about him.
Shipmates are great.
Let's see, your Avi would be really, really cool.
If you ever want to go deep science,
Terry Tao would be a lot of fun.
Terry Tao.
Yeah, he's the smartest mathematician in the world.
And he's like probably the smartest human being alive
right now.
There's smart people and then there's people
that just have infinite depth.
And I'm always fascinated like,
how does he decide what problem to work on?
Imagine if you have this curse where you can solve anything
but not everything, and you know the clock is ticking
and you have finite time and you're gonna lose
your ability to do that.
So what would you do?
And Terry is one of those few human beings
where he is legitimately in that position.
He's so insanely, he graduated from high school at 12.
He got his PhD at Princeton at 21.
He won the Nobel Prize of Math, the Fields Medal at 28.
He's just so insanely brilliant.
Like literally any problem he can solve.
He can't solve them all.
So like, how does he spend his time?
And how does he make that decision?
And what is elegant to him?
What's amazing to him?
I love looking at the extremes in people
and saying, this person, what person, you know, what's
their Roger Penrose would be another and Federico Fagan, Roger in particular, because he's at
the twilight of his life.
And as one of the most brilliant physicists ever to live, he's chosen to spend his time
on consciousness.
And he's chosen to spend his time on in particular quantum consciousness, like this entangled
thing that we talked about earlier.
He's a phenomenal speaker and it just,
there's a depth of thought and elegance of his thought
that is tremendously refreshing for these things.
I tend to be enamored with the people
who have clean thinking and a very original thinking
and they're kind of classic in that they just
don't give a shit at all about the social consequences
of what they say or do.
They're totally divorced for it.
Like one mathematician I always wanted to meet
was Gregory Perlman, and he did the thing
that no one's ever dreamed to do.
So he sold Poincare's conjecture,
which was this very hard math problem,
and he got the Nobel Prize in math for it.
And normally you go and show up, get a million dollars,
and get this beautiful gold medal,
and then you tell all your friends
like how smart you are and special.
He turned it down and he left math.
He's just like, man, I did what I wanted to do.
And now he's just in St. Petersburg,
riding the subway and like chopping wood and yes,
completely out of the field.
And it's just inconceivable to me
that somebody like at that level would do that.
And he doesn't take any interviews.
He doesn't talk to any journalists.
He's just on a different reality.
Matthew Ricard is another really cool guy.
There's a book written about him,
and they call him the happiest man in the world.
He's this Buddhist monk who was a scientist,
and then he decided to leave science,
and then he went into the monastery,
and he just meditated so much,
he found a way to put himself in a state of bliss.
And because he was a scientist,
he agreed to go through brain scans and everything like that,
and his brain waves were totally different than any normal human being.
So, and he's just a joyful guy, you know, you see.
So the world's filled with these people.
So my recommendation to you is just find the people that are the extremes of things,
whether it be, you know, mathematical brilliance or meditation or these things.
And just try to say, well, why did you spend the time? You know, because all these people are products of a constant vigilance and down.
And, uh, why did you choose those problems to solve over any other problem?
You know, Roger Penrose could have worked on black holes or some other thing,
quantum computers, but it's a consciousness.
That's not something normally a physicist spends a lot of time on.
Right.
But then he chose that for some reason.
But why did you spend the time for that?
Very interesting.
Well, Charles, it was an honor to host you
and I hope to see you again.
And I just wanna say again that this entire five hours
or whatever it was,
was never a dull moment. You're just a fascinating human being
and thank you for everything you're doing
and thank you for being here.
Thank you so much, this was a lot of fun.
Cheers. Cheers.
Cheers. Jim Rome takes on sports.
Why?
Because you're not playing me.
With rapid fire takes.
Ain't a lot to get to and I'm not sure you're gonna like all of it.
Honestly, I don't even care if you like all of it or not.
I have a job to do.
Scorching debates.
On any given week you have lots to beef about.
Take advantage of it.
Get up in here.
He's the Spitfire of Sports Smack.
She's not my fault.
We will get to all of that.
The Jim Rome Show Podcast.
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