We've got Dan Dreyfis on the show.
We're going to be measuring human progress by how much electricity we can sue.
βThe semiconductor industry, I view that as an industrial or infrastructure company.β
I mean, it's effectively a factory. We try to figure out where the world is going, and then we try to figure out what we're going to need to get there.
In the next 10 minutes, I am going to try to teach you about critical minerals
commodities are incredibly fragile infrastructure here in the U.S. that is going to require trillions and trillions of dollars of investment if we want to achieve our technological objectives, our re-shoring, re-industrialization objectives, and our national security, and military objectives. But first, a little bit of history, we are at a very significant inflation point right now
in U.S. economic growth and what it's going to look like. Really from the early 2000s until just a few years ago,
βthe U.S. went through effectively what I think was an economic miracle,β
where we created so much growth, so much market cap, so much value, without really having to invest any capital at all. I mean, think of all the companies that were created with no capital. You had Google with the search engine. You had Meta with social media. They bought WhatsApp for $30 billion with 12 employees, you know, no capital whatsoever. You had the streaming platforms. You had the food delivery platforms. You had Apple computer,
which was capital light, created trillions of market cap. You had software as a service. Absolutely no capital required to create all that value. At the same time, we were creating these
companies. At the same time we were doing that, we were literally tearing down all of our critical
infrastructure and moving it overseas to China. So we were really doubling down on that capital
βlight mentality. But then it started to come back to bite us, right? We had COVID. We had theβ
Russia Ukraine conflict. We had the tariffs. Now we have the Iranian conflict. And every time we had one of these geopolitical flare-ups, inflation spiked like a rocket, you did a telescope to see how high inflation went and it never came down. And the reason for that is we let our supply chains get way too fragile and way too weak and there's no resiliency in the supply chains. And now we're at this inflection point where we want to reshore everything that we tore down and moved to China.
We want to re-industrialize. We have this technological compute revolution that is infinitely more infrastructure-intensive than compute was in the last generations. And this is creating this really
wild demand shock for infrastructural critical minerals commodities at the same time where there's
a supply shock because we just haven't invested in this stuff for so long. Now, there are so many capital cycles going on at the same time. I've never seen this many going on at the same time in my career. We have the aerospace cycle, blowing an airbus, have a trillion dollars of backlog over the next 10 years. Now through in the space economy, which is going to compete for the exact same materials and backlog that are trying to source, we have the grid. Any time it gets a little bit
cold in Texas, the year caught, the Texas grid is not connected to the rest of the U.S. grid. Every time it gets a little bit cold, that grid shuts down and they're freezing in the dark. Then we've got here in California, Paradise, California, that power line that caught on fire killed 300 people. Did you know that that power line was over 106 years old? There's parts of the grid in this country that are over 106 years old. And here in California, if half the people buy electric
cars or there's Robotaxies and we all go and plug them in at 6 p.m. after work and turn up the air conditioning, we're just going to kill the grid. Boom, we're going to kill it. We're all going to be sitting in the dark. So the grid barely works for what we need it for right now. And we haven't even started talking about the tsunami of demand, electricity demand that AI is going to bring. And there's power generation. You know, we've let China go and build multiples more power generation
than what we have here. And this is a trillion dollar plus capital cycle that's probably going to be a trillion dollars every 10 years for the next 30 years. Data centers, this is now a trillion dollars per year, per year, all infrastructure, all commodities. Then there's semifabs.
The CPU is making a huge resurgence.
this number is way too low, $750 billion. I bet you that's going to be measured in the trillions.
βAnd then there's defense. Everybody, you know, Taiwan's turned into a porcupine. Japan's raisingβ
their defense budgets. Europe's raising their defense budgets. The U.S. raising their defense budgets. What the similarity is amongst all of these end markets is none of them will work
without critical minerals. None of it. None of this can happen. And so here's the problem.
Last April, China announced that they were going to cut off exports of some critical materials to the U.S. Sumerium, Gandalinium, Turbium, Disprosium, Lutidium, Sandium, Yitrium, Irbium, Silver. Just cut it off. And we're close to a lot of big industrial supply chains. And the cut off of Sumerium cobalt magnets, we learned that the Ford Motor Company was within days, literally days of their entire production line shutting down. The whole Ford Motor Company. And same with McDonald Douglas, too, by the way.
And this put people in the Department of War to part of energy into a panic. And to their credit,
βthey're doing something really aggressive and really important. They are now going aroundβ
to small resource owners across the U.S. and into Canada. And they're knocking on the doors of these companies that were left for dead in the last 20 years. And they're saying, here is three pieces of paper. The first piece of paper is an equity check that we're investing into your company so that you can go and start converting your resource into a mine. And then the company says, oh,
that's great. Wow, that's a shock. But, you know, the problem is I've been waiting on my permit
for the last 20 years. Nobody wants to give me a permit. They say, oh, look at the second piece of paper. There's your permit. Go and start building right now. And then they show them a third piece of paper. And then the company says, what's this? And they say, this is an off-take agreement. Take or pay with the minimum floor price. It's going to guarantee you a very high internal rate of return on your project where you can keep all the upside above the minimum price. But here's a minimum
price that you can go out and raise a bunch of capital to get this thing fast tracked and up and running. Now, China has an absolute grip. It's absolute on all of these critical minerals. And it's going to take at least 10 years, probably 20 to catch up, but we got to start somewhere, because we just can't have China leading over us in squeezing our testicles every time that we don't do something that they don't like and say we're going to cut off your exports.
We're going to cover exports of critical minerals and you guys are going to freeze in the dark.
So I have a lot of credit to the administration for doing this. And really, you know, I've done commodities now for 25 years. And I've never seen something like this happen before. It's truly what I call a Vujai Day moment, which is the overwhelming feeling that none of this has ever happened before. So here's copper. This is the king of metals. This is just one example. We need copper for everything. You know, if we want clean energy, you know, solar power
per megawatt takes five amounts, five times the amount of copper than a typical base load CCGT gas fire turbine, same with wind, seven times the copper, data centers for a one gigawatt AI factory. Now, you need 50,000 tons of copper per gigawatt. And we're going to start building 15 gigawatts of these things per year per year. So 50,000 tons per gigawatt at 50 gigawatts is 750,000 tons of
βcopper that we're going to eat for these things. Do you know what the copper supply was last year?β
It grew only 500,000 tons. And this is just the data centers. Then electric cars, you know, we're going to have robot axes everywhere and electric car consumes five or six times the copper than a traditional internal combustion engine. And there's the military. In the Ukraine Russia conflict, did you know that we used more explosives than in all of World War II? Do you know that? And your artillery shells of these explosives? Guess what they're made of?
One of them's called the copperhead. Very cleverly named after a poisonous snake. They're all made of copper. Do you think we'd go into the battlefield and recycle that copper? No, that copper's gone. So we need these metals for everything that we do. Now, where are we going to get it? Going back in human history to Mohenjo Daro, we have mine 700 million tons of copper. 700 million tons of copper over the past 10,000 years. Now 80% of that copper, we can probably
get it all back if we wanted. But what we'd have to do is we'd have to tear down this building we'd have to rip up the grid. We'd have to tear down the buildings in Europe in Japan and China.
We could get all that copper back.
So how are we going to get it? Well, right now, copper demand is 30 million tons per year.
βAbout 4 million of that supply comes from a cycle, copper. The rest of it is 26 million tons asβ
the mind. And if we just grow in line with GDP, so for getting about data center upside, for getting about green energy solar upside, just growing at GDP like we used to, now listen carefully, that means over the next 18 years, we're going to need 700 million tons of copper. Over the next 18 years, we're going to need as much copper as we mind in the last 10,000 years. That means we're going to need 5 world class mega tier 1 mines coming online every single year. And you can go and
grow up this or chat GPT this, you can count on one hand and have some fingers left over.
The number of tier 1 mines that are coming on between now and the end of the decade.
So I don't know what they're going to do because it takes 7 to 12 years to build a copper mine. The existing copper mines are dying. You know, the big mines in Chile over 100 years old, the grades are depleting. And this is going to be a major, major challenge and an upcoming bottleneck. Right? Today, all the rage is in memory in HBM and then prices are going vertical because
βthat's the bottleneck. Now, if you want to look around the corner and see the next bottleneckβ
coming, I strongly urge you to look at copper. And so here we are, a supply shock meets a demand shock, commodity cycles typically last 15 years and have multiple hundreds percent of upside. We're only a few years into this. This is just really getting started. And I want to say one more thing. Right? We spoke about demand. We're having this demand shock. We spoke about supply. But what we haven't spoken about is how we're destroying the value of the U.S. dollar.
Since COVID, we have absolutely destroyed the value of our fiat currencies. Today, we have $40 trillion of government debt. That's growing at $2.5 trillion every year. On top of that, we have $100 trillion of discounted present value of the future social liabilities. So Medicare, Medicaid, social security, pensions. That's also growing by $2.5 trillion a year. So you have two and a half trillion of growth on the federal debt. Two and a half trillion dollars of growth
on the social liabilities. The U.S. government only has five and a half trillion dollars of tax receipts every year. So what's going to happen the next time we have a recession where tax receipts go down and spending has to go up. We're in a print giga dollars. And in the 1970s, we had this problem as well. And the way we did it is we just debase the currency through some inflation,
through some growth and the currency lost 70 percent of his purchasing power. And commodities
and hard assets and infrastructure will protect your purchasing power in that kind of environment.
βGo and look it up in the 1970s. What was the best performing asset class by a mile?β
That's your homework. So with that, thank you and look forward to chatting with you guys. Shabap, I think on the prediction show, you did was your call, I forget which category it was, but you definitely had, that's not the best performing asset was going to be copperia. Pretty. And that's before I talk to Dan. It's right, which is saying something. Well, you know, I think the copper price is easily going to double from here. I mean, I've seen, I've seen, I've seen a
lived in him go from a dollar a pound of 33 dollars a pound. So a double is no big deal. And so take it. Take this back. You said something really interesting backstage, which is, if you look at everything that we're doing right now, we're barely going to keep up with just the natural energy demands of humanity, right? Just explain that thesis the way that you framed it in the back. So here's the issue. We have not invested in upgrading and modernizing and hardened the electric
grids since post World War II. We just let it go. You know, the last two, three, four administrations were sleepwalking and haven't done anything to harden this infrastructure. Now, if we simply just want to achieve our objectives to re-industrialize, reshore electrify. When I say electrify, that just means replacing your old gas boilers and these buildings with heat pumps, which every commercial building is doing. It means, you know, electric car penetration going up. It means
using your electronic devices more, not even talking about AI. Not even talking about AI. We're going to have shortfalls just from that. Just from living our life. This, from living our life. So what happens? Blackouts, brownouts, brownouts, brownouts, and we're going to have rising
Electricity prices.
I thought on one of your shows where you were talking about how the utilities are just really goosing up the cost to do everything so that they can report to their regulator and earn that ROE
βon the higher capital base. What's really interesting, I think, is really underappreciatedβ
is that's where all the inflation is coming from. It's from the transmission and distribution from the utility because power prices over the last 20 years, even after the rise we've just had, power prices are still down. They're definitely down in real terms, but they haven't really gone up much in absolute terms. And so when you're talking about making it is still cheap, it's getting more expensive. Getting it, getting it to people is getting it to people because,
you know, the labor, the labor by far and away is the biggest bottle like craft labor. Right, what do we tell all our kids to do? You know, in the last 10 or 15 years they get the labor, what are the standards on the co-inorth East? Yeah, big mistake. And so I'm curious from the audience in your homes, how many people have put up solar and/or power walls? How many
people have actually done that? So that's about half the crowd. How many people's second question
are planning to do that in the next year or two? Okay, so that's another 20%. So it's pretty obvious, this is obviously a fluent crowd. They are routing around the grid. Is the solution to this energy independence in the, you know, the home in the business businesses are not waiting for the government. So maybe the grid is going to be like this weird archaic infrastructure and it's just going to be a ground-up solution. Well, you're going to need the grid no matter
what for industrial use. I mean, that's the foundation of industrial use. I mean, the scale of what we have to do just for industrial use. Here's a good step for you. So a one giga-law AI factory,
βif you wanted to do all solar, right, and I'm a big solar bill. Okay, if you want to do all solarβ
because solar is capacity factors 20% because the sun doesn't shine all the time with a capacity factor at 20% a one gigawatt data center needs five gigawatts of solar. Each gigawatt of solar takes up 7,000 acres. So at five gigawatts, that's 35,000 acres. That's bigger than San Francisco. So we're going to find the people. You know, that's the biggest bottleneck we have by the way is craft labor. Yeah. What about generally scarcity breeds innovation? There's been a conversation
or I've seen some startups that are talking about new technology and mining to access. I think traditionally rare earth is kind of the pitch, but everything we need is in the earth below us. It's just that we only mine the stuff that's on the surface is the general thesis. Is there a set of innovations that you think are coming to market that are going to
ultimately unleash more productivity than we see, because we're still using the same technology
we did a hundred years ago to get this stuff out of the ground. For some commodities, yes, you brought up rare earth. So coming out of the 14th century, there are these guys called
βalchemists. Remember then they said they could turn lead into gold. And back then the periodicβ
table was just four elements. There was water. There was fire. There was air. And there was earth. Now fire, you could figure out what it was. The air was pretty pure. The water was pure. But every time they saw something in the earth, they didn't know what it was. They called it a rare earth. And so rare earths are everywhere. And the technology to extract rare earths is going to allow us to
have a huge abundance of them. But the problem is processing them. That's the problem. The
Chinese have all the technological know how to convert what you take out of the ground and convert it into something that we can use. And so there's always going to be some element of conversion that you're going to need with something like copper. The market is so big that it's really difficult to find a technology that could solve that problem overnight. And if we are having just a threat a couple of topics we've been talking about on the pod. Incessantly about if we do have
this rivalry with China and they are the provider. And that's the brittle part of the supply chain. We can solve the problem of job displacement, not apocalypse displacement. People in America who want jobs, these are going to be incredibly high paying jobs. And we can start bringing the fabs from Taiwan here, which we're doing. And we're going to bring both to North America and I understand South America from a friend of mine who's got an automated mining system, atoms, Travis. We're
going to be able to just create a large number of jobs here. So maybe you could talk a little bit about what impact we keep talking about how behind America is. But what happens to China if we stop buying here, here we start building what you said is is very important for this whole jobs debate.
The craft labor that we're going to need is going to be almost limitless for ...
And there's really no other way around it, right? You know, in many ways, like look what happened
βin the 2000s, right? We tore down all our factories in the China. And who got killed by that?β
It was the blue collar, craft labor, created all kinds of unintended consequences, fentanyl wealth gaps. Pennsylvania is a big Detroit. You know, the coast we're making all the money in the heart of the country, the salt of the earth was getting killed. What's ironic today is that same part of the middle country, those people that got displaced are now getting entry-level salaries. You know, if you go to Kwanna University in your top of your class, you're starting out at 150 grand right
out of high school. And the jobs they're doing, ironically, are the jobs that may or may not be displacing some of the early, you know, lower-level white collar labor. And so the tables, the tables have totally turned. And so look, it's an efficient market. The jobs are going to flow where the money is and the money right now is really coming in. Can we talk about a couple of
βother areas? What's your take on other forms of energy, not gas, coal, nuclear, hydrocarbons?β
I mean, the demand pulls seem like if just based on this, maybe the most productive takeaway is everything. But then how do you then differentiate? Like why were you, why did you say, for example, your super bullish solar? What are your thoughts on nuclear? How do you trade all these off? These different sources of energy? So we're swimming in natural gas in this country. We can build solar, you know, that's not the bottleneck. And nuclear, you know, we can't really build it. We can't
even build the containment vessels in this country. The Koreans can do it, but we can't do that here.
So there's always going to be these big bottlenecks in the system. And whether you're talking
about solar, whether you're talking about nat gas, whether you're talking about uranium, we're going to have the raw inputs like the natural gas that we drill from the ground. But what we're going to be short of is the critical minerals to build the nuclear power plants. We're going to be short the silver, for example, to build these solar panels, especially if we start launching data centers in space. Right? These are going to consume incredible amounts of
silver right now. The silver supply demand dynamic is we consume a billion two ounces of
year, we supply a billion ounces of year. So it's a 200 million time deficit per year.
I'm only only a 600 million of above ground inventory left. So the clock's ticking. We got three years left guys before we just stock out. And then the solar story is where do you get the silver for the photovoltaic cells? So for our kids and for the country, generation tool belt, for us allocating, get some exposure to copper, silver, minerals. And then there's a bunch of service providers in and around that area that we should be investigating over the next year.
Don't forget the labor of the service providers. That's a big one. Okay. How do you allocate capital? You're at the front end of owning what mines in production, but then also the end use cases like how do you decide where to not play? Because a lot of these things, it looks like these
are incredible in markets, but you can get run over. Like if you're in the wrong part of the market,
there's supply shocks, there's supply shaping by China, there's price dumping. It can be all obvious, and you could lose a lot of money too. Yeah. You really have to understand supply chains. And I think to a lot of people out there, supply chains are the sort of weird, mystical concept. And I still think a lot of urban Americans still think a ham sandwich comes from the refrigerator. And they don't think about the 30 million pigs every month they're getting slaughtered
outside of Chicago. Don't get free birds started. But you know, you got to understand where
βthe pinch points are in the supply chain number one and number two. I think you have to reallyβ
make sure that you're not going to get technologically disrupted, where you can find, you know, I think this was the free birds point where you can find something that's going to replace that tightness in the supply. Give it up for Dan. Well done. Very, very informative.
