Moonshots with Peter Diamandis - Unlocking AGI: How Life Changes for Everyone w/ Jack Hidary, Salim Ismail & Dave Blundin | EP #213
Episode Date: December 6, 2025Get access to metatrends 10+ years before anyone else - https://qr.diamandis.com/metatrends Jack is the CEO of SandboxAQ and the author of “Quantum Computing: An Applied Approach” Salim ...Ismail is the founder of OpenExO Dave Blundin is the founder & GP of Link Ventures Learn more about the Future Investment Initiative Institute (FII): https://fii-institute.org/ – Connect with Peter: X Instagram Connect with Dave: X LinkedIn Connect with Salim: X Join Salim's Workshop to build your ExO Connect with Jack X Linkedin Learn about SandboxAQ Listen to MOONSHOTS: Apple YouTube – *Recorded on October 27th, 2025 *Views are my own thoughts; not Financial, Medical, or Legal Advice. Learn more about your ad choices. Visit megaphone.fm/adchoices
Transcript
Discussion (0)
What does Sandbox AQ do and what do you think about quantum computing?
Sandbox AQ, A for A.I.Q for Quantum, this is ultimately the twin engines of the transformation of our society.
What technology has done for us is model our world and then be able to change our world using the data from that modeling.
The AI and quantum coming together gives us a new superpower and it's upon us in the next four or five years.
2030 is my prediction where I think we'll have the kind of impact that is business impact, societal impact.
It's not going to be winner takes off.
These non-intuitive, non-human domains,
the AI with the training data is just as good or better there.
It's not replacing humans.
It's adding things that we otherwise couldn't do.
Once the capabilities there will have an explosion of imagination.
Is there going to be that moment where people go, oh my God?
I think it's going to be when...
Now that's the moonshot, ladies and gentlemen.
All right, everybody, welcome to our Moonshot's episode.
We're going to be recording an episode here in Riyadh at FI-I-9 of our Moonshots podcast.
I'm very pleased to be joined by our Moonshot mates, Selim Ismail, the head of EXO, Selim
welcome.
Let's give it up for Salim Ismail, everybody.
All right, right here.
Dave Blundon, my other Moonshot mate.
For Dave Blondon, Dave.
All right, buddy.
And as a special guest, we have here, Jack Hittery,
the CEO of Sandbox AQ.
Jack, bring it up.
Jack, I can always count on you to bring the hat.
And the energy.
And the energy, for sure.
Woo!
Let's do it.
A fusion power source.
Let's do it.
So, in our Moonshot conversation today, gentlemen, I want to cover three subjects.
I want you to bring all of it to the table.
Don't hold back.
We're in the middle of this incredible location with 6,000 of our closest friends.
Quick question.
How many of you in the audience have listened to the podcast?
All right.
Whoa.
A lot of fans.
Amazing.
So this is a conversation on three subjects today.
The first is energy.
The second is robotics, and we're going to wrap up
because we've got Jack here on quantum.
So let's begin with energy.
Question ultimately is what do we do with abundant energy.
And let me just look at my notes here one moment.
So today, China has added 429 gigawatts of new power in 2024,
as opposed to the US at 51 gigawatts of power.
There is an electron gap that's significant.
We're seeing the emergence of small modular reactors, SMRs.
We're seeing basically corporations going out
and buying their own nuclear power sources,
investing in Gen 4 fission, investing in fusion.
By my last count, there's 37 fusion-backed,
or 37 fusion VC-backed companies that are in production.
But we're still woefully and adequately short in the United States
and most in the world for energy.
What are your thoughts?
Jack, can kick us off?
Sure.
Peter, it's fascinating.
In energy right now, we're in a very odd, limited period of scarcity,
and so we're not seeing the big picture,
which is abundance is coming very soon.
Somebody wrote a book about abundance, who?
Okay.
Right now, if you look at, for example, gas turbines,
40% of electricity in the United States, about 35% in Europe, is supplied by gas.
An increasing amount here in the Gulf is moving to gas as well.
What is the wait time right now to get a gas turbine?
Something that looks like a propeller that allows you to make electricity.
I'll take bids starting at six months.
What's the wait time for getting a gas turbine?
Two years.
Five years.
It's four and a half years right now.
So GE, Mitsubishi Heavy, and Siemens are the production.
producers, four-year wait.
They're not willing to actually make more capacity
because the last time they did, they got burned.
And so that's not happening.
So we have this little odd period where there's lots of data centers,
lots of AI demand, open AI, Stargates, all kinds of stuff happening,
but you can't, it's very hard to make it happen.
What's going to happen starting though in seven, eight, nine years
is we're going to flip the script to abundance.
And what's going to happen is the SMRs that you just mentioned,
Peter, on the nuclear side are kicking in, other nuclear is kicking in,
Various governments right now are about to build factories
to make more turbines, and so that's really going to be fixed as well.
And then in terms of solar and batteries,
we're going to see step function change.
Right now we're at about 27% efficiency
in terms of photons, light, going to electricity in solar panels.
That's going to move up because of material science breakthroughs
because of quantum.
I'll give you another story exactly supporting what you said.
I took a tour of the biggest quantum data center in America,
and Jeff Markley had just built this thing
and he tried to buy five gigawatt generators
they're sold out, there are none
so he bought every three gigawatt generator
that was left.
So then he bought a million valves
and said what are you going to do with a million valves?
He's like, well look, it's all liquid cooled.
I'm going to need the valves,
but the last time I tried to build something
everything was sold out.
I'm not taking that chance anymore.
I'm going to buy a million valves and be ready.
So some valve manufacturing company
just became a unicorn.
Can I get a handman?
Mike for Jack over here, please.
Salim, what do we do with abundant energy?
So let's go to Jack Hiddery's thesis.
Seven, eight, ten years from now.
We've got more capacity of energy
than we've ever been able to use.
Yeah.
What are we doing with it?
Well, I think it's very hard to project, right?
We've had 10,000 years of civilization
on a scarcity of energy.
And suddenly we flip to abundance.
We're going to have this amazing challenge
of thinking through.
What do we do with it?
If you have abundant energy,
Balanization becomes largely much less expensive, right?
If you have fresh water, you take out half of all the infectious diseases in the world.
The ripple effects start to propagate.
Energy tips everything.
Energy tips everything.
Food becomes easy.
And so the ripple effects are so profound.
We have to rethink all of society.
Think about the idea that the last hundred years, almost all the wars have been fought over oil, right?
So hopefully we should have less wars.
We're human beings, so we'll fight other things to fight about.
but it will decrease the need for overt aggression in the way we have it.
How many countries in the world do we have dependent on the petro dollar?
Russia, Venezuela, you know, obviously here in the Middle East.
Probably about 40.
And so what happens to their economies when we've got abundance energy from everything else?
Huge impact.
I mean, take Canada, right?
I'm Canadian.
40% of exports are oil.
When do we have abundant solar or other technologies, the marginal cost of economy?
the marginal cost of extraction there is like $50 a barrel.
Here it's like $7 a barrel.
So there's no way the expensive countries are going to be able to compete
on oil in the future.
So it'll be moving, the geopolitics is crazy.
One thesis I have is that the reason Russia invaded Ukraine
is in a few years there are 70% of exports of oil and gas
are not going to be worth much.
They have to do it now.
Dr. Hidderi.
Peter, just to add to Sleem's point,
Sleem mentioned it in passing,
passing, want to double click on the health care implications.
50% of all the hospital beds occupied in the continent of Africa are due to bad water.
Due to infections and bacteria and viruses carried by water, related to water.
Mosquitoes also standing water.
So once you have fresh water because of abundant energy, then suddenly you free up huge amounts
of the health care system and people become much healthier.
And so just the implications for water and then the down effect, the down effect of health care
is already multi-trillion in nature, not multi-billion, in terms of its effect.
And then when you think about what you can do in terms of transport, transport is expensive
because of energy.
And so if you can now transport stuff from place to place, you again change global economics.
So I don't think we're ready.
I don't think the global political leaders have really taken into account what,
what's gonna happen starting six, seven years from now,
when we flip from scarcity to abundance here.
Closing thought, Dave, on energy?
Yeah, well, so, you know, we're right here in Saudi Arabia.
Saudi is playing the cards absolutely perfectly.
Because the way this will play out
is that the data centers are moving to where the energy is.
So this is a brand new thing in the world.
The energy used to need to move to the population,
hence all the tankers.
You know, the oil has to go there.
But that doesn't have to work that way with the AI.
The AI can come to the energy.
So there's huge amounts of
natural gas that gets wasted. There's a huge amounts of oil that is expensive to export.
Why not bring the data centers here? And there's solar. What's the quote on solar energy here?
Was it you say no? It was Imod that was telling us about it earlier. Emod, what's the quote
on solar energy, so I can repeat it? Three? So the solar energy here in Saudi is three times
cheaper than it is in the United States.
I was going to say, aqua power, the largest deplore of solar and wind is a Saudi company.
People think of Saudi is only oil, not the case.
So bring the data centers of the energy.
Once the data centers are built, you're locked and loaded.
The data center's not going to move.
These are massive capital inventive.
Once that's on the ground, no matter what happens with Fusion, you're good to go.
Fascinating.
And then you have Bill Gross, building the energy storage system.
Bill Gross.
And then off you go there.
We'll hear from him a little bit.
Let's move to our second subject, which is the world of humanoid robotics, embodied,
intelligence. You know, last year I was on stage here, on the main stage here with Elon talking about robots. His prediction is 10 billion humanoid robots by 2040 and a price point of, you know, $20,000 to $30,000. We heard yesterday, today I interviewed Dr. Robert Player, the CEO of Boston Dynamics tomorrow. I'm interviewing the team from OneX. Today OneX announced their pricing on their Neo Gamma robot. They're selling it at
at $20,000 and they're going to be leasing it at $499 a month.
Now this is before we've gone into production, right?
When we get to millions of robots,
tens and hundreds of millions of robots,
we're gonna see the price come down.
At these price points, think about $10 a day,
40 cents an hour for labor,
labor running GPT, five, six or seven,
or GROC-10, superintelligence.
What do you guys think about robots coming?
Jack.
Just to kick off, the first five factories
where robots are building robots
have begun construction.
There's two in the U.S., there's three in China.
And so they're not ready yet,
they're not in production,
but these factories will be ready
in the next six, 12, 18 months.
And that's where you begin to get
some of the kind of scale that Elon's talking about.
Not sure about the number he had,
but the point is it's directly correct.
They're the iPhone production scales.
That's right.
And when robots can make robots,
now we're in a whole different ballgame.
And the second thing you had, of course,
is that the LLMs, the software side's getting better,
and that software gets implanted in the embodied robot.
And therefore, the kind of programming we thought we had to do,
back when a lot of us were thinking about robotics on this stage here,
a number of years ago, we thought, wow, the coding, the programming.
No, that's out the window because we now have an intelligence,
they can see something and do something.
And so this is a very different future
where at FII, we can make a prediction right now.
FI, two years from now,
there'll be quite a few robots walking amongst us,
maybe even some on stage presenting.
And I think that's going to have a profound impact
in terms of first, initially, warehouse logistics,
profound impact on that whole sector there.
And then also in hospitals,
we're seeing already penetration of about 20% of hospitals in America
have some kind of robotic helper,
not for medicine, not for surgery,
but for the mundane things in hospitals,
bringing up the towels, the linens, the food, the medicine, things like that.
But eventually we're heading towards surgery, right?
We're getting there, but right now, already adoption today.
If you go to hospitals in America, you see a 20% adoption right now.
Imagine when they're better in humanoid.
I don't buy it.
Okay, I have three points.
One, I totally agree with the industrial use of robots.
massive opportunities, especially for the dull, dirty, dangerous jobs.
I think supply chain issues are much deeper than people think.
So I don't see how we end up with a billion robots down the line,
at least in the foreseeable future.
I think it's going to take a lot longer to get there.
I am coming around to the software adaptation side.
These things are going to learn very, very quickly.
But as I said on our last podcast, can we please get the Rumba working at least?
Before we start thinking about all sorts of other household tasks,
I think industrial uses where we start and have a profound penetration there
before you bring it into the home.
And your idea of a robot per room, I don't think that's going to happen.
So leave to your point.
A house.
A house.
Two for house.
I think household is the last place.
Thank you.
I agree 100%.
The amount of variables in a house, dogs walking and running around kids,
there are way more variables in a house than any factory on this planet.
Which is, by the way, why, for example, 1X wants to go in the house.
house. They want to have enough
a variety where they can pick
up and get data and learn,
right? We've sucked up every single
data point. They may injure some kids on the way, but
they're going to learn. Yes. They're going to learn.
One thought from our last
podcast, you know, we had that little video of the
robot kickboxing. Yes. From a
marketing perspective, it feels to me
like kickboxing is not the first task
you should show a robot doing.
What you want, massage? It should be the last, yeah, massage.
Have it vacuuming the floors, have it
clean the dishes. I don't want to kickboxing.
robots standing next to me. That's going to be unnerving. You want to convey a sense of safety and
comfort, not UFC in the house. Oh my God. Dave. Thoughts here. Selim, we talked about that. The only
reason they're humanoid at all and don't have six arms like you want is because it inspires people.
And when they kickbox, it inspires people. And this is where China is running away with the
robot Olympics. Yeah, amazing. It's inspirational. And watching soccer games through robots,
it's interesting. Let's talk about the China of it all. Peter, you had some export stats.
Yeah, I do. So here's what's going on, right? There are two hotbeds of robot manufacturing.
The United States has got probably about 30 humanoid robot companies. We hear about the top five or six, but there's a long tail here.
China is at least that. I'm putting out my humanoid robot report in about a week's time, and we're tracking on the order of 100 humanoid robots, a lot of them out of China.
And it's interesting, right, as China goes out to the world, and I understand why and provides, you know, free open source AI models, we're having those models adopted by country after country.
In the Chinese robot space, what we're seeing is that it's the up-and-coming countries that are not technologically forward, like Poland, Mexico, Russia, and Vietnam, that are buying.
Chinese robots.
So Poland is 1,700 percent increase in robots coming in from China.
Mexico is at 275 percent, Russia 135, and Vietnam 114.
The countries which are technologically forward,
South Korea, Germany, U.S. are not importing the Chinese robots.
Yeah, I think it's important to note, though, that China,
you know, the Chinese economy grew at 10 percent plus for, what, two decades,
largely by bringing manufacturing into China
and using this 1.4 billion person labor pool
to win manufacturing wars all over the world.
And that pool is going away.
That is about to implode so badly.
If they don't race to robotics, all that.
Yeah, they have to because of the population.
That makes sense to me there.
Totally makes sense.
Yeah, well, that's why they got ahead.
Now the US needs to bring manufacturing back.
That's going to take some time.
And then robotics goes hand in hand with that
because the US just doesn't have that labor pool.
So it's a very different dynamic.
China versus the U.S., and that's why it got into the state that it's in right now.
Professor Hedery.
I think we're going to see really different variability in terms of the penetration of
Chinese robots in different countries.
Let's take Japan as an example.
Japan had a head start in robotics.
I don't remember the Osimo robot from Hott?
I do. Amazing.
Okay.
Program closed.
It greeted President Obama.
It's an example of being too early.
It's bad to be too late, but also too early is very difficult, too.
Japan's birth rate is well below replacement rate.
They're shrinking from 145 million people to 90 million people.
And they've always thought it's robots that are going to help take care of the older people
because there's no young people to take care of the older people.
But they're going to be Chinese robots, not Japanese robots.
That's the kicker.
And when it comes to the States, I think there will be some adoption of robots from China,
but there's going to be some sensitive areas such as supply chain, defense,
so and so forth, where some more expensive robots, be it Tesla,
be at figure.AI and others will also have a play.
So I think they're going to coexist here.
In Europe, we're seeing B.YD on the car side penetrate and demolish the European car companies.
My prediction is the same on robotics.
Amazing.
All right.
I want to take our last 10 minutes of this Moonshot podcast to talk about the quantum of it all.
So we just saw the Google's chief scientist, Michelle DeVere, win the Nobel Prize.
Google is just racking up Nobel Prizes.
Congratulations to our family at Google.
We just saw the Google Willow reach what they call quantum advantage, which is a marketing term.
We can talk about what that means, but announcing a 13,000 X increase over classical computing.
And let's talk about what it means, Jack, to have a quantum advantage.
Talk about what Sandbox AQ. Eric Schmidt is your chairman.
you're the CEO. You have skyrocketed. You came out of Google X at like a half a billion dollar
valuation and you've been on an exponential growth curve since then. What is sandbox AQ do and
what do you think about quantum computing? Well, thanks Peter. Quantum is the kind of thing that
both scares, shocks, and exhilarates people at the same time. We should probably make a pill
called the quantum pills so that people get excited just take the pill. Quantum is upon us. We've gone
from five years ago people saying
will anyone ever really build a
real quantum computer will ever have
any impact? I think it's clear
now that we're headed to a yes.
Now the question is when
my prediction to you on stage here
is 2030 will be a
critical year where we'll have a
usable quantum computer. What does that
mean? What is usable quantum? So usable means that
there's two aspects to quantum.
The positive and the negative. The positive
side we can be able to
render this world,
this world down to the subatomic level. Why is that important? You want to make a drug for cancer, for brain cancer. You want to make a drug for Alzheimer's. You want to make a new material out of a hydrocarbon outflow and make a carbon composite to make cars lighter, more fuel efficient. You want a quantum computer because it is the best modeler, the best simulator of our physical world. And that's going to be great. And in 2030, we're going to do that, I think, with some really good power with a quantum computer.
It won't be the ultimate quantum computer, but it'll be pretty good.
On the negative side, we're going to cross a threshold around that same year, 2030, when
a quantum computer will break all the cybersecurity, the public cyber, in your phone.
When WhatsApp says end-to-end encrypted, that is using a protocol that quantum breaks.
And so if you have blockchain, anyone here I have cryptocurrency, any bitcoiners in the room,
you want to worry about this because eventually this is going to be something that we have
switch the blockchain to a quantum safe program.
So 2030 is my prediction where I think we'll have the kind of impact that is business impact,
societal impact.
We're still going to have to wait till the super-scale quantum computers to do even bigger things.
But four or five years from now, I think we're going to make some really good headway.
And I think several companies, it's not going to be winner-takes-all.
This is not a winner-takes-all game.
Because there's no network effect.
The U.S. government's going to take all.
They're definitely a player in the game.
So that's on quantum computing.
It's worth mentioning, though, Peter, that quantum community is not the only game.
Quantum sensing is here today.
Sensors that can see how your heart's doing, because the magnetic field in your heart,
way better than any ECG or an MRI, actually are here today.
And so sensing is something that maybe another podcast we can talk about,
but look it up online, quantum sensing.
And fundamentally, where is this all going?
Where it's going is that we need AI to actually.
interpret a lot of the output of these quantum devices. There is no human on Earth that could
see a quantum sensor and read it natively. Our minds would literally blow up. And so AI has been
fundamental in turning these from laboratory ideas to commercial products. Sandbox AQ, yes,
we actually named our company A for AQ for quantum many years ago. We saw this merger coming
because this is ultimately the twin engines of the transformation of our society. What technology
is done for us, and all of us on stage are part of this, is model our world and then be able
to change our world using the data from that modeling. That's what we've done in the past 70
years, and that's where we have pushed forward technology in such a great degree. The AI and
quantum coming together gives us a new superpower, and it's upon us in the next four or five years.
Phileem, thoughts. I think it's huge. I think one area that is going to be really interesting
is almost all the computational applications
are for classical computers,
and we just don't have the imagination
just what could we do with the quantum computers
so people dismiss it.
But I think once the capabilities there
will have an explosion of imagination
as to the types of problems,
and you're probably dealing with them more
than anybody else right now.
So in a few years we'll all be wearing hats
like yours trying to imagine
what are the quantum applications of the future.
He's wearing that hat so his brain doesn't explode.
He's holding it contained in one place.
And I think that's where
there'll be a massive opportunity,
is the application side of it.
Yeah, Dave.
I think one of the coolest things
about what's happening in AI right now
is when most people think about what you do with AI,
they think in terms of, okay, here's a person doing call center work,
here's a person doing white collar,
here's a person, here's a robot walking around,
cleaning my house, let's move that over to AI.
But actually AI is even better in these domains
like can you program this really complicated
quantum computer, can you contain a fusion reaction
with a really complicated and magnetic field?
Interesting, right.
He's non-intuitive, non-human domains.
The AI with the training data is just as good or better there.
And that's so greenfield.
It's additive to humanity.
It's not replacing humans.
It's adding things that we otherwise couldn't do.
And quantum is just one of those things.
Jack, what's it going to look like when we hit our chat GPT moment in quantum?
Is there going to be that moment where people go, oh my God?
We're going to have two chat TPT moments in quantum.
The first is going to be when secrets of our secretes.
society, our companies will literally be exposed by hackers on the internet. Quantum computers
are not just going to be the hands of great governments and companies. Because it's cloud-based,
and because those clouds are everywhere, including many countries, hackers will have access
to quantum techniques. Once it's known how to build a quantum computer of scale, it will be
rebuilt and replicated all around the world. And that means that one of the GPT moments is going
be suddenly really confidential stuff from the CIA from governments is going to pop up submarine
style on the internet and unless people protect themselves that is going to happen so there will be a
wake-up call again roughly in that year 2029 2030 when people have not protected themselves
are something to be like how did this happen i thought i was encrypted you were encrypted just now
we can read it so that's going to be one chapter the other chat tip-tip-d moment i think it's going to be
when, and this is Moiba Strip right back to the beginning of our conversation on energy,
the number one thing that's holding back fusion power, which would give us abundance,
one of the many things that would give abundance, is it's very hard to model the plasma
that's in a fusion reactor. It's really hard to model when on the other ignition type
facility you have millions of lasers going to a little dot. Quantum computing is the first
computing platform that gives us the power to model what's happening in a fusion reactor,
That will accelerate us probably by 10 to 20 years.
So we're fully back now circular into the energy abundance.
So interestingly enough, right?
I had breakfast this morning, with Lipputan, who's the CEO of Intel.
The U.S. government takes a 10% position in Intel,
and the stock has been flying ever since.
Those of us holding Intel options are celebrating, yay.
We just saw a whole number of quantum computing stocks literally go up 50, 20%, right?
because the U.S. government considering taking a position them,
how do you think about the government taking positions
in these technology companies?
Dave, do you want to care you off?
I think they're brilliant investments,
mostly David Sacks driving the agenda,
and they're incredibly valuable for the US right now,
and I think they're a terrible precedent
because if you think about what prior administrations
might have invested in, you know,
I mean, it ranges from the most insane
to beyond the most insane thing.
Dogfruit.com, right.
So as a precedent for the way government works, it's terrible.
But these particular investments are fantastic.
Also, the defense implications mean that they'll try and do this as a starting point
of nationalizing the whole thing, which would be bad.
I mean, if we have massive quantum computational capability in the hands of private companies,
will that ultimately need to be a national asset?
I think there could be a national reserve, just like we have an oil,
strategic oil reserve. You can have a national compute reserve of quantum without having to
own these companies. I agree with Salim and Dave. The history of picking winners by governments
is a horrific history. It's bad because actually often they turn out to be bad government,
but also because it's just not, it restricts innovation and the unleashing of an entrepreneurial
spirit. Well, it's completely inconsistent too. You have no idea what's going to happen just a couple
years from now, could completely invert
course, in a democracy, completely
invert course, so no one can predict the future
as it's terrible to have that inside the government.
Not that democracy is working that well
right now, so that's all other shit.
For another podcast. This morning, we just
saw Nvidia hit a $5 trillion
valuation. Welcome to the first
$5 trillion company.
Crazy. I'll close
this out with your predictions on
what other
industries are going to hit a $5 trillion
mark here.
Jack?
Well, the energy sector.
You're going to see right now a RAMCO sitting at 1.8 trillion of market cap.
If Aramco and other oil companies, energy companies take hold of compute the way they could
in the next three to five years, it's going to take a little longer than NVIDIA, but you
could see a $5 trillion energy company if they're taking hold.
Because when you think energy, think of all the things around energy.
In the case of Aramco, they have their unit called Saabik, which is a lot.
a chemicals producer. In the case of Exxon mobile, they are an integrated chemicals producer
as well. So Exxon could be that company. A Ramco could be that company. It could be three or five of
them. It really depends on whether the energy companies go beyond thinking about themselves just as
energy and go into the compute to think about the future of the products coming out of those
energy. Dave. That will create $5 trillion dollars in energy. Dr. Alex was in her gross is
constantly saying on the podcast on moonshots, we're going to tile.
the Earth with compute. And that's
inevitable. As fast as we can
create chips and as fast as we can find
energy, we're going to be building compute. And that'll be
true for the whole future of humanity starting
with this AI. Until we
break down all the planets and create
a Dyson swarm around our
planet. Exactly. Dyson sphere. Dyson sphere.
Directly in that value chain
is going to be a multi-trillion dollar opportunity.
Salim? I call the question irrelevant
because once you have abundant energy, the whole
economy becomes meaningless. We're dividing.
What is $5 trillion?
Yeah.
5 trillion what?
I call BS on the whole question.
All right, ladies and gentlemen, give it up for our moonshot mates here.
Thank you.
Thank you, Peter.
Every week, my team and I study the top 10 technology metatrends that will transform industries
over the decade ahead.
I cover trends ranging from humanoid robotics, AGI, and quantum computing to transport,
energy, longevity, and more.
There's no fluff.
Only the most important stuff that matters, that impacts our lives, our companies, and our careers.
If you want me to share these meta trends with you, I write a newsletter
twice a week, sending it out as a short two-minute read via email.
And if you want to discover the most important Metatrends 10 years before anyone else,
this reports for you.
Readers include founders and CEOs from the world's most disruptive companies
and entrepreneurs building the world's most disruptive tech.
It's not for you if you don't want to be informed about what's coming, why it matters,
and how you can benefit from it.
To subscribe for free, go to Demandis.com slash Metatrends.
to gain access to the trends 10 years before anyone else.
All right, now back to this episode.