The Vergecast - The Vergecast RAM Holiday Spec-Tacular
Episode Date: December 23, 2025The world runs on RAM, and RAM is harder than ever to get your hands on. What’s happening here? Every year, the Vergecast team spends the holiday season going deep on a single spec or technology, an...d this year it’s all about Random Access Memory. (No, that’s not a Daft Punk album.) Nilay, David, and Sean Hollister explain what RAM is, why it matters, how it became a precious commodity, and what it means for the future of chips around the world. We also play some games. We do… okay at the games. Happy Holidays! Subscribe to The Verge for unlimited access to theverge.com, subscriber-exclusive newsletters, and our ad-free podcast feed.We love hearing from you! Email your questions and thoughts to vergecast@theverge.com or call us at 866-VERGE11. Learn more about your ad choices. Visit podcastchoices.com/adchoices
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Welcome to the Vergecast, the flagship podcast of the Daft Punk album, Random Access Memories.
And the Reddit thread I just found asking, what would be the name of the tracks on Daft Punk's Christmas album?
Which I encourage everyone to go spend a lot of time reading.
I'm a friend David Pierce.
Nealai Patel is here.
Nealai, hello.
Sean Hollister also here.
Hello, Sean.
I am also a friend.
This is the Vergecast holiday spectacular, which I would say,
Neil, is it fair to say this is just a joke that we made one?
time that has now gotten way away from us over time? Yes, to the point where I'm wearing a holiday
muff. Okay, I'm glad you brought this up. What is that? So I was going to wear a Santa hat,
but I couldn't find it. The last time I wore the Santa hat was the last year on this show, so
I don't know where it is. It should just be in this room. But last year, I acquired from my wife
what can only be described as a holiday muff, which I'm currently wearing. It's a scarf, but it's a loop.
It's very warm.
How many stars does it have?
It's a lot.
I look great.
What I've come to learn is that I should be a scarf guy.
You should.
I actually agree with that.
I look terrible in scarves, but you're kind of pulling this one off.
I feel great about it.
My neck is very warm because I would like everyone, if you're listening to this,
imagine if you've ever seen a dog wearing the cone of shame, but it's not a cone.
It's just the sort of inflatable donut they put around their necks.
That's Neli, but make it fashion.
You know what I mean?
Yeah.
No, Becky's very fashionable.
This is, this looks great on her.
I don't agree that it looks great on me, but I'm pulling it off right now.
I want to say.
Sean, you meanwhile, managed to make this space that you're in go from not holiday
at all to extremely holiday E in like three minutes, which I'm very impressed by.
It turns out that my wife is quite the Christmas decorator in every other part of this house had lots of stuff to steal.
So I stole all of it.
That's great.
So your room is the respite from joy and happiness and seasonal feelings, except for right now.
Unless those feelings are Star Fox.
I love this.
I do, I do want to say I was going to put some holiday art from the Samsung frame store on the frame TV behind me.
But I was worried about copyright infringement.
So this is just a winter scene painted by Van Gogh, who is dead and can't sue us.
That's right, Van Gogh.
It's a challenge.
What up, Vince?
Yeah.
What are you going to do?
Vinny.
So what we do every year on The Spectacular is we pick a spec or a technology or some piece of this world of tech that we live in and get like weirdly deep into it.
And we've done, Neely, help me remember, we've done Bluetooth in the past.
We've done USBC in the past.
We've done, we did Matter last year.
That was very fun.
What else?
We started with HTML because the joke was that after the first Trump administration, we had so much politics on the show.
we were going to clear the air.
We're going to reset with a full hour on HTML to do the nerdiest possible thing that was in politics.
And now we have to do a spectacular every year.
A beloved, beloved thing that we all very much enjoy doing.
By the way, it's time to do HG again.
I think we're headed towards needing to do another HTMI episode.
Are we not going straight to 6G?
So, okay, Sean, I'm glad you brought this up.
Here is a partial list of things that we could have done instead of the one that we've picked.
we could have done 6G.
It would have been a very short episode,
and it would have made all of us very angry.
But that's an episode we could have done.
We thought about doing, instead of doing Matter last year,
we almost did arm, just the idea of arm chips,
which I think was very important.
Last year, continues to be very important.
All things, LLMs, you could spend a lot of time
just digging into, like, inference as a spec.
We just get real weird with it.
That's not a spec?
We could do TPUs.
You want to do TPUs for an hour and a half?
These aren't specs.
You got it. It's a spectacular, not an acronym spectacular.
I am very down for less letting the LLMs play for us.
It's true.
We could do Wi-Fi 7.
That's a spec.
We could do satellite internet, which...
Not a spec.
I'm sure there is a spec.
I didn't do enough research to care, but, you know, there's specs involved.
Li-Fi.
There you go.
Li-fi.
I thought about doing the wireless power thing where you can, like, point a charger at
yourself and apparently won't that won't be horrible that's what that's what
i'm talking about i proposed e-ink collido uh Travis shot that down fairly quickly
Travis suggested libibu which may or may not be a spec we can debate that later but the
one that we decided is ram we're going to spend this whole episode talking about ram
at least ram contains within it specs ram what is what is everything if not a bundle of
specs you know what I mean you think about that we are all
All specs.
Yeah.
But RAM, I think, Sean, my question to you is, would you have gone into 2025 expecting
to spend as much time as you have covering specific sticks of RAM?
Absolutely not.
This stuff is commodity.
It's so boring until it gets fascinating to find out how it's made.
But like, just take it for granted, right?
It's everywhere and you don't even think about it, I thought.
Yeah, I feel like it's like a thing we write about sort of as a clause in a sentence in a phone review about how much RAM it has.
And that is most of the way that I've thought about RAM for my entire adult life.
And now all of a sudden it is like a precious rare earth mineral in the world.
And we're going to talk about why.
So we're going to do this show in three parts.
First, we're going to just build up some knowledge of RAM.
Sean, you are going to just school us on what RAM is and how it works and how it became to be a thing that we all care deeply.
about. Then Travis, our producer, has some games that he has created slash vibe coded that are,
I assume, going to make us all look very dumb and be deeply terrifying. And then we're going to have a
conversation at the end about kind of the macroeconomic chip war of all of this. There is a big
picture question about how chips get made and who's in charge and what it means for the future
of technology and we're going to get into all of that. But that is for later. And for now,
Sean, we asked you to like really give us the like kindergarten starting education and how RAM works.
Are you ready for this?
Oh boy.
Can't wait.
All right.
So let's literally start from nothing.
What is RAM and where did it come from?
Okay.
At its very, very basic, there are now, nowadays chips that are going to be on a stick or possibly pattern.
etched into the top of your processor that also do this memory thing.
And their job is to store charge.
They will store a little bit of electricity that indicates if it is a one,
or they will not have that amount of electricity and it not have quite that much charge in it,
it will be a zero.
And these ones and zeros represent computer memory because it is code.
This is the digital, you know, zero one that you hear about.
this is where it is stored temporarily inside your computer, inside your phone, so that the rest of the computer can read it and say, what did I just compute? Now I can act on that previous thing I computed and do more with it. And so computers didn't always have this chip kind of memory. They had all kinds of other kinds of memory before this. There were switches you would have to flip, or rods or gears that would be turned to a certain position in a mechanical computer. That would be, this is my story.
my memory of what I just did a moment ago
so that I can do more computing on top of that.
But all of these forms were known as memory
and the RAM, the random access
of that memory is the thing that the computer is doing
all the time, randomly looking at various parts of it
to find out what it's stored temporarily
in its memory that it can look back at.
The kind of RAM we talk about most of the time
is DRAM, dynamic random access memory.
This is called dynamic.
because the charges that are stored in it need to constantly be refreshed.
The memory doesn't have any, it doesn't remember what's inside of it when it doesn't have power.
It needs to constantly have power so that it's refreshing those things.
But we have other kinds of memory.
We talk about storage.
We have SSDs, which keep stuff in there longer without power.
Not forever, but longer.
Most of the time right now, though, and the crunch that we're talking right now is mostly about DRAM.
Memory that's going to give you that little short.
term for the computer to act on it again.
I feel like it's important to say here that historically DRAM has been much faster than
the other kinds of storage on a computer, right?
So back in the day, the hard drive was really slow, quite linear, actually, in how it stored
information.
And you would want to have a lot of RAM because it was so much faster to get information
in and out.
But that's sort of equalized, right?
Like modern SSDs and RAM, they're closer than they were, but they're still not very close,
right?
Yeah, memory is much, much faster than storage still, but storage is, we're at the point now
where in most computers you'll have your random access memory that's doing the very quick,
you know, calculations back and forth between the processor, and computer companies want to
keep that memory as close to the CPU, the actual instruction parts of your computer, as possible.
So they're baking it under the board, they're creating special range,
of logic where something can, you know, pop out of the CPU and into memory and back into a CPU thread so quickly that they're getting even more performance out of it than they would if they had it on a separate stick further away from the CPU. So they prefer that higher bandwidth, that faster access if they can't. But yes, the solid state drives now, they're quick enough that you could have a cache on there. Some people will talk about doing, back in the day, you could speed up your whole computer by using.
your DRAM is like a temporary storage for your programs.
You'd like just throw your game in there or something like that.
So you could load it even faster than storage.
Storage is fast enough now.
We don't think about that much anymore.
Okay.
So RAM, actually I did, I would say, like four minutes of research.
And it turns out RAM has been around much longer than I realized.
Like, the way I've always thought of RAM is basically like you have a hard drive that is sort of spinning and trying to find things in a linear fashion in a
row. And actually, storage doesn't quite work that way. So everything is all over the place. So
your drive has to constantly spin around and look for stuff. And that takes a while. And RAM just can
look for it all at the same time. And that is much faster. This is basically like a thing that I
learned listening to music on knock off iPods in the early 2000s. That's the extent of my RAM
education. But this is a technology that's been around since like the middle of the 20th century,
right? Like where did this actually come from in the first place?
I don't remember who quite did it first, but when you're looking at early computing, people will talk about the Babbage engines, and they would have like rods that would be in a certain position, and that would tell you, you know, it would store the previous calculation.
And then some of the early computers would have punch cards or tape that would have, you know, put punches through it, and you would read that.
There would be various switches that you would flip or gears turned to a certain position.
At one point, they had vacuum tubes where, you know, you've got this idea that a vacuum tube, when it's on, you know, can store a little bit of energy in there.
Not to interrupt you, but every single one of those things sounds so cool and futuristic.
Yeah.
I'm like, that sounds sick.
Let's do that.
That's probably better.
And then it's like, no, these were all the bad ideas we had before we did the easy simple thing.
Everybody loves exposure loss of decompression, the tremendous amounts of energy required to do anything, right?
At one point they had CRTs where you would store the bits on the screen of the CRT as a charge.
You know, you've got your electron gun firing your charges at the screen.
That creates your phosphorescent image that you see on a CRT TV.
Well, why not store the memory there too?
And then there was ring memory, the core ring memory at some point where you'd have wires kind of all wrapped in patterns.
And inside of each of those places, you could store the charge for longer.
than you could in some of the previous technologies.
You can store many of them in a lattice.
And I've gone to the Computer History Museum and Mountain View,
and you can see hand-woven memory as this thing.
It looks like a bunch of cords knotted together.
It's fascinating stuff.
I still bring all of that back.
I'm looking at my desk now being like,
my computer needs like several more vacuum tubes
and something very cool will be happening.
But as far as I can tell,
RAM is one of those things that it's like,
there are a bunch of things in sort of the history of computing
where a thing was created.
and then everybody kind of looked at it and went like, oh, yeah, this is better.
And it just immediately took off and won forever.
And I feel like we're in year like 60 of RAM, which suggests that everybody just decided this was the right idea.
The thing to know now, I think, is that they are computer chips.
The RAM, the RAM bits on your, you know, on your memory stick that goes in your computer.
It is created basically the same way.
It is the same material.
And so when we're talking about the shortages that we're seeing now, these shortages may intersect with other places because what you're doing fundamentally is you've got a silicon wafer. You're taking a single big crystal of silicon. You are cutting it using like a diamond wire or a diamond, you know, edged rotary saw into incredibly thin layers like a quarter of an inch thick. And these are being patterned with chemicals and, you know, edged rotary saw into incredibly thin layers like a quarter of an inch thick. And these are being patterned with chemicals and,
ultraviolet light and then etched with acid or plasma into these little chips.
And it's the same process used for processors, for computer processors, also used for memory,
the same kinds of wafers we're talking about, about 13 inches wide, are used for computer chips,
they're used for memory chips.
And so we've digitized all this and made this much more efficient and small, but now it's
kind of the same thing.
So the gap between all of these different things has actually, like, shrunk a lot over time.
So when we talk about like storage and processors and RAM, like the distinction, it seems like matters a lot less than it used to.
I hadn't really thought about that until just now, but it does, it is all becoming sort of a single system in the way that it was not.
Like I still think of RAM as like a giant stick of thing that I shove into my desktop computer.
And that is in almost every case, not what RAM is anymore.
Well, it's also not where the volume is, right?
Like phones, there are more phones than laptops.
right there are more phones and cloud servers and RAM is in all the phones it's soldered into the phones those aren't sticks you have a lot of feelings about that maybe we should all put dim sticks into our phones that'd be kind of cool um but you know if you listen to the apple earnings call or dell's earnings call all the analysts are always talking about fluctuations in DRAM pricing because there's only so many vendors of RAM which I'm sure we'll get into um they are kind of a commodity it moves up and down like oil
and if the price of RAM is high, Apple's margins are lower
because the price of the iPhone does not fluctuate
with the price of RAM.
So this is in the background of all these businesses
is, oh, RAM is a commodity and the price moves up and down.
In a way that, Sean, I don't think like the price of M4 chips
moves up and down, right, in the same way that RAM is a commodity
and the price moves up and down.
Yeah.
Now, if you want Intel or Apple or your, like, Samsung,
if you want TSM to create you a chip,
You talk about, like, do they have the capacity at their fabs to make as many chips as you want?
And if they do, you pay, you know, this much.
And if they don't, you try to pay more.
So you bump somebody else off of the fab or get capacity.
It's coming later in the year, whatever it is.
With DRAB, there are so many wafers that are going to these three, basically three companies that are creating this stuff.
And they're, you know, they don't want to create too much of it.
But they know generally how much many PCs and how many phones are going to be sold in a given year.
And they just produce a lot of it and everybody buys it off them.
Yeah, Ramazone of those things, it is like so deeply unsexy, but it is increasingly everywhere.
And right, I feel like it is the, we've been on this March when we talk about this a lot on this show that like everything has become a computer, right?
That my dishwasher has a computer chip that probably resembles a smartphone chip in it.
And so does basically every other piece of electronics in our.
world. Has RAM scaled the same way? Like, is it, can you sort of spin around in your chair and
probably find 100 things with RAM inside at the moment? I can tell you this frame TV doesn't have
enough RAM in it. I can tell you that right now. Yeah, I can also tell you that. Having just watched
you go through the interface to select this photo. Something I didn't know until we were doing this report
the other day is that the solid state drives have RAM and them too. I figured you didn't need very much
of that. But, you know, yeah, there's some cats.
in there. There's some cash in there for the solid state drive so it can run faster.
RAM is now, it's just utterly ubiquitous that way, right? It's just the same marches,
sort of as smartphones became this gigantic, massive industry. Smartphone chips went everywhere.
And RAM has done the same thing. To the point where it is baked into many of those chips.
Sure, yeah. Your phone doesn't necessarily have an application processor soldered here and a RAM
soldered there. It has the RAM
packaged into the processor
in many cases. That's what I call
them SOCs, right? That's, you know,
the chip people, the chip fluencers
get very mad when you call them CPUs. They're
SOCs. There are systems on a chip, and that
part of that system is the memory, is the RAM.
So I bet your dishwasher actually has an
SOC. By the way, I've been watching you through your dishwasher
for weeks now. You're loading
it all wrong.
My wife would tell you that's absolutely correct.
But your dishwasher probably has
an embedded SOC
that is a complete system
containing RAM
that is whoever
just bought off the shelf
and shoved in there.
Yeah.
So,
okay, so,
Sean, tell us about
2025.
What the hell happened
this year
that I have to think
about RAM in my day
to day life now?
I don't know
exactly how it began,
but I don't remember
anybody forecasting
that all of a sudden
AI data centers
will be buying up
so much of the world's
ram that the rest of us
would be scrounging
for leftovers.
I do remember them saying that DDR4, an outgoing standard, would be a little bit pricier because they were trying to end of life.
It's like, okay, yeah, there's less of that to go around.
So if you've got an older computer, you might pay a little more to get your older RAM.
Double data rate four, synchronous dynamic random access memory, DDR4 SD RAM.
Good Lord.
Okay, so they're trying to, they're trying to phase out DDR4, presumably to phase in DDR5.
They're trying to, yeah, and we got DDR5.
If you're buying a new computer, you're going to buy that instead of DDR4.
You stick it in your graphics cards.
So you stick a graphics version of it in there.
There's even six for graphics cards and seven.
But moving on from that.
Yes, the general standard, DDR5.
And it goes in all the computers.
And it goes in the kind of computer you'd buy for yourself.
And it goes in the laptop where you don't even think about it.
And it also goes in the AI data center.
And the AI data centers want as much of it as they can possibly get,
just like they want as many GPUs as they can possibly get.
Can I actually ask about that?
So I heard there's a data center RAM crunch,
and I thought, oh, it's because Nvidia is selling a lot of GPUs.
Today centers, don't the GPUs use a different RAM?
Don't they use V-RAM?
They have their video RAM.
It's on a slightly different standard.
But fundamentally, all the memory is coming from just a few companies
who have a limited supply of wafers
that they are cutting out of ingots of silicon
and doing their chemical treatment processes on
And so everybody who's making these computer chips is going to be fighting for some of that supply.
And the RAM makers in particular control, these three companies control 93% of the world's supply of RAM.
Who are those three companies?
This is Micron, S.K. Heinex, and Samsung.
Oh, sure. You know, the first three companies I think of when I think of tech companies.
S. K. Hynix runs the world. You shut your mouth when you time with S.K. Hynix.
S.K. Hynix is the biggest of the three.
Okay.
And Samsung also, these three companies, 93% of the other companies that there are, there is only one other company that has even 5%.
The rest have 1% or below.
Wow.
Okay.
And so if you want RAM, you're going to one of these three.
Of these three, one of them just said, we're done with consumer business.
We're just going to focus on enterprise now.
We're going to focus on data centers because that's where the money is.
and of the other two Samsung and S.K. Heinex, they may have contributed as much as 40% of the world's entire supply of memory to a single project at OpenAI going on right now to create a massive set of AI infrastructure there.
Wow. So just to be clear, it's not the AI data centers need more regular RAM for the CPUs or more V RAM for the GPUs. It's just RAM in general is.
needed for these formats. It's all of it. I mean, you'll want, if you're building your computer inside
the data center, it's going to need a GPU, and that GPU is going to have memory. It's going to
need a CPU with normal memory to talk to, and so it'll have some normal memory in it. It's going to
need SSDs, which are going to have a bit of memory on those. It's going to need all kinds of networking,
fancy networking switches for their, for their, in thin link or whatever. There's memory inside those.
All of these things are consuming memory, and so much of it is going there now. That's the
that companies are saying, if this is the way things are going, we don't need to worry about consumers so much.
We're going to have plenty of money from where the profits lie.
And we saw this already happen to some degree in GPUs.
I mean, we saw AMD say, we're not going to make a high-end graphics card for gamers this year because we want to put our resources toward AIGPs instead.
We saw Nvidia not say that, but then kind of do that anyway, although they do have plenty of consumer GPUs.
it's been harder to get them. They've been pricier. They know that they can charge gamers more because if gamers don't buy as much, that's not a problem for them. They're making $30,000 off of one of the AI GPUs. They don't need to make a thousand off of a gamer.
So if I'm one of these three companies, basically, I've looked at the market and I'm saying, okay, I can sell to like Dell who wants to make some laptops and I can sell to like nothing who wants to make some smartphones. Or I can sell to, like, nothing who wants to make some smartphones. Or I can sell to,
sell essentially to like the five richest companies on earth who are all trying to build AI
data centers and want to buy from me in unbelievable volume. And like any reasonable shareholder
value maximizing company is going to pick the thing where Open AI just writes you the largest
check you've ever seen in your life. Antonio ran into Dell's CEO the other day and got a,
and got a whole like long, mostly empty spiel about how Dell has all these relationships
with with with these suppliers and they go back years and yet, yada.
And it kind of boiled down to Dell may need to kind of tap the companies on the shoulder and be like, remember me?
Please give me some memory.
We have these deals and we would like them to be fulfilled.
He said that supply, that getting supply is their focus this year.
Like they haven't already negotiated the supply.
Apparently not to the degree that they need.
So how wild has this gotten?
You saw and wrote about some, like, I would say, sincerely nuts outcomes of this RAM shortage.
What have you seen out there in the world?
I think the one that's gotten the most reach is that some stores are now selling it like lobster in that they're selling it like the catch-of-the-day market price.
You have to walk into the store and ask, hey, how much is RAM today?
Or you might say, you know, I'd like to order the RAM.
Can you tell me how much that'll be on?
my bill swirl your wine and I say I'll have the ram thank you uh it's it's it's the point
where several of a verge editors um myself richard law or so we've gone back and looked at how much we
paid for ram three months ago six months ago a year ago and we've seen that the number is quadruple
what it was good word uh sticks stick you know i i see reddit's stories about um somebody um talking
about how they're willing to trade their
pricey GPU for a couple
sticks of RAM. And a year ago
that would have been unthinkable. The GPU
was the item that everybody wanted.
You'd pay $1,500, $2,000
for this GPU.
It was that hard to get a
good GPU. And now they're saying,
oh, well, maybe I should get $1,500
sticks of RAM instead
for my computer. So my computer has enough
memory to open my hundred Chrome tabs.
It feels like we'd keep
doing this. Like, it wasn't that
long ago that all the Bitcoin miners made it impossible to get GPUs and then all the AI companies
made it impossible to get GPUs. And then right before that, we had a chip shortage because everybody
was in the pandemic buying like peloton's and stuff. And so like how is this just a thing that
keeps happening? Like at some point, these South Korean companies should just make more ramp.
Why is this so complicated? Some of it is that it takes a long time to spin up new facilities.
Like these, there are only so many ultraviolet.
extreme ultraviolet lithography machines in the world.
We're talking about a dozen.
Is that the thing that's made by that one, like,
secretly powerful Dutch company that no one knows about,
but it just kind of runs the world?
Yep.
If you want to make the cutting edge chips,
this is the only company that will sell you the machine.
You can't buy them if you're in China
because they think that's a security risk.
They have to fly parts all over the world for this.
It takes six months just to take the parts for this machine
and construct them into the machine.
There are only dozens of them in the world.
It's wild.
That's for the cutting edge stuff.
So there are not everything you're making
is going to require the cutting edge machine, but still.
I just have to say, I just Googled,
how much does DRAM manufacturing need EV,
extreme ultraviolet lithography?
And there's answers, but Google's AI overview is like,
yes, it absolutely needs EU lithography.
Give it to me now, please.
Like, this robot's like, I need it.
I need it right this second.
It's very funny.
It's on a curve up.
It is not the dominant, like Micron only just adopted a UV.
And Micron is building out more fabs.
But to Sean's point, the fabs take a long time to come online.
There are so few companies that control this.
There's the ASML per year EVUV machines, the only company that's doing that.
There's just the three memory manufacturers.
When you come to the other side of the chip equation, TSMC, you know, the big Taiwanese fab company.
company. I think the New York Times said that they, too, single company was producing something like 93% of the world's cutting edge chips at that, at the time that New York Times report came out like a couple of years ago. So there's just power is in the hands of very few. And those companies, they don't want to risk creating oversupply. In some cases, it can be fundamentally detrimental, their bottom line. They could lose money if they do too much over.
supply. I think Micron in particular is making massive profits now, but it wasn't always. There was a point one, two years ago that was losing a bit of money. For the other companies, they're like, well, we'd like to maintain long-term profits. Thank you very much. We're going to feast on this as long as we can and not create more than we think we can sell and profit from. So they're happy to see their average selling prices go up.
They're looking at Nvidia becoming a $4 trillion company and going, well, that went well, maybe we also can.
Yeah.
So that makes me feel like this thing is going to get worse and not better.
It's not like I assume there's not some next technology that is waiting to be implemented here.
Like the world runs on RAM in a real way.
Are we stuck in this sort of chaotic shortage for the foreseeable future?
or like I guess if the AI bubble pops
and all these companies go out of business,
things change.
But short of that,
how does this get better?
One thought is that the AI bubble pops.
Another thought is that maybe...
A little thought.
Yeah, so world economy crashes
because the robot wants to bang you.
Your laptop, it'll be easier to get a laptop, though.
That's true.
But at least Kevin O'Ris will find true love.
Shout out to K.
Shout out to K.R.
My boy.
Happy holidays, Kevin.
Another thought.
Another thought is that maybe,
maybe they will come up with a version of manufacturing RAM that works better for the AI companies,
and they'll switch to that. One theory going around right now is that today we make little chips on
wafers, and we cut out those little chips and we turn them into CPUs and memory modules and so on.
But maybe in the future we will make giant whole wafer chips, and because those whole
wafer chips will be fundamentally much more efficient at moving data within them, maybe higher speeds
from memory and so on. Maybe the AI company will switch to those. And so if the, I don't know where
the bottleneck is, but if the bottleneck is not in slicing up wafers, but actually in printing out
chips, maybe that will make the AI companies more happy.
Interesting.
Wait, I just, the idea is that, let's just say Sam Altman. Sam Altman is going to buy 18-inch round memory
chips. That's basically
that, yeah, basically exactly that. I mean, that's a perfect
open AI idea. Like, we
will get so good at manufacturing memory
that the yield would be perfect on an 18 inch round
silicon wafer. Sure.
This is how we get back to vacuum tubes.
Do you know how cool
that would look sitting on your desk right now?
And you're just like, the RAM guys, you're just like
going up the stairs at their huge wafer.
Like, instead of dims, you're like
feeding them in like giant CDs.
Hell yeah. Sure. Sure,
I buy it. I love it. There's also like other stuff.
There's like packaging stuff.
There's like 3D packaging.
Like all the same chip manufacturing stuff is in RAM now, right?
There's lots of thoughts about packaging things differently.
But again, I don't know where the bottleneck is.
If it's, there's only so many wafers to go around, then we're kind of in trouble if the AI continues to eat all the wafers.
You know, if it's somewhere else, if it's in, you know, if we just package this differently, if we just manufacture it differently.
And if that manufacturing can be spun out into a different.
supply chain that doesn't impact all the consumer stuff, that might be nice. Then again, I don't know.
Right now we're talking about, the AI companies are talking about a lot about HBM memory,
high bandwidth memory. It's all it stands for HBM. And so if you're going to use this separate
kind of HBM to get more bandwidth in your AI data center, we're thinking that's going to steal
RAM production away from the consumer stuff, from the DDR. It takes up three times as much, you know,
space, according to one of the analysts that Emma talked to for her RAM report. And so if that
steals away, that's not good. But maybe we all start using HBO. There was an AMD set of graphics cards in
2015. I used one in a PC that used HBO memory. And it was great. It made for a very compact,
efficient graphics card. Perhaps all of that will trickle down. And after AI isn't eating up so much
of things, maybe everything gets better in consumer as a result. I don't know. Let's hope. All right.
bubble pops, the AI build out works out, or we all transition to a new standard that's unproved.
These are good outcomes.
Perfect.
We're doing great.
And then you can finally buy a PS5.
Like, that's how it goes.
Sure.
Yeah, it sounds great.
All right, we're going to come back to this thread of the story.
But first we're going to take a break, and then we're going to come back.
And we're going to play some RAM games, which I am told are a thing that exists and is going to happen.
We'll be right back.
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All right, we're back.
It's time for some RAM games here on the Holiday Spectacular.
What is this?
What is happening to me?
Ram games, Neelai.
Get ready.
This is what we do here.
All right, Travis, Larcuck, our producers here.
Hi, Travis.
Hello, everybody.
Travis, you are in charge and you have been let loose with several AI tools that make me nervous.
What do you, what, you're in charge.
What do you have for us?
I have two games for you today.
The first game, Nilai, earlier you said, this was a spectacular, not an acronym tacular.
You were wrong.
because this first game,
as we all know,
nothing tech people love more
than jargony acronyms and initialisms.
And as you know, RAM
stands for random access memory.
In this game, I will give you an initialism.
For one point, tell me,
does this initialism relate to RAM in any way
or is it some random other thing
that I stuck in there?
I don't like that Sean is laughing away
to suggest he's already won.
I have to be really honest about this.
Like, I don't, I don't like this confident cackle
that's coming out of my boy, Sean Hollister.
Look at, he's nodding.
I gave you all of everything you need to win.
Yeah, this is a question of whether Niela and I were listening.
Are you listening?
The initials came.
All right.
Do we buzz in?
How does this work?
We will go in order.
That's one point.
Now, if the initialism turns out to indeed be related to RAM,
there are bonus points available.
if you can tell me what it stands for.
I will give you one point if you get any of the words correct.
I will give you two points if you get it all correct.
All right.
Okay.
All right.
Ready to rock?
Let's do it.
Okay.
Let us randomly select the order of our game.
Oh, my God.
And Sean is up first.
Yes.
I vibe coded this in case anyone's watching this interface.
I cannot wait for this thing to start hallucinating.
Your first.
first initialism or acronym is.
C-A-S or maybe
Cass.
This is RAM.
It is indeed RAM for one point.
Do you know what it stands for?
Shit, what's the initialism?
It has to do with latency, but
why can't I remember
any of the words in it?
No, I don't know what
Cass stands for.
All right.
Cast stands for column access strobe.
Oh my God.
As in column access strobe latency.
This is when RAM was made of like weird rods, right?
Column access strobe is a vacuum tube.
Yeah, you just pull the rods as fast as you can.
You strobe the rods, boy.
That's what they used to say.
Strobe those rods.
Sean, that is good for one point.
Neelai.
I'm so sorry.
What are we doing?
Go ahead.
I have good news for you.
Your initialism is DDR.
Oh, that's great.
It stands resolution.
No, this is RAM.
Double data rate.
Nailed it.
Two points.
It is RAM.
In the lead.
Take that all.
It is double data rate.
Three points.
All three points.
David.
Just playing to Neelai here.
That's right.
Your.
Initialism or acronym is UNR.
UNR.
I definitely paid Travis under the table.
I'm going to say not RAM.
You are correct.
It stands from University of Nevada.
Yes.
To be fair, I think you should have let me guess to get two more points.
All right, Sean, we are back to you.
Ready.
You have UMA.
That's RAM.
Correct, for one point.
Universal.
It's also UMass Amherst, like just to say.
It's all universities, all the not Rams are universities.
I don't know the M.
Crap.
Universal something Axis, I think.
How do you not know the M?
Just wait, wait, wait, wait.
Think about what Ram stands for.
Do you want to take a guess what the M stands for?
Just like, you can work out.
Okay, let's let's try memory.
I don't know.
Okay, you are correct about the M.
The M is memory.
It is unified.
Unified.
Unified.
We're close.
Wait, does you get two points because you got two words?
No, it's one point.
It's not one point per word.
You get two points total.
Okay.
Yeah.
One point if you get at least one word, two extra points if you get all the words.
Got it.
This is when CPU and GPU share the same pool of RAM.
Okay.
Neulai.
D-O-T-A.
A, perhaps Dota.
I'm going to say not RAM.
That's a game that uses a lot of rooms.
Yeah, I'm just thinking of Vlad Silva.
Correct.
That is, Defense of the Asians and Esports game.
David.
All right, hit me.
D-I-M-M.
Dim?
It's a RAM thing.
Correct.
This has come up already.
Do you know what it stands for?
This has come up already?
That seems bad.
Data.
David is
Memory Master.
Data
Intra Machine Memory
You got memory
It is dual inline memory
module
To be fair technically I didn't get memory
Yeah do you have to get one of the words right
In the right
Yeah I had it on the wrong M
I think I don't get that point
The wrong M all right
I'm willing to say
What an upstanding guy
No because otherwise you just get to say memory every time
And you probably get a point
I understand how to score points
David. I'm kind of willing to say. Sean, you were making a face like you would have gotten this one.
Would you have gotten this one? 100%. Yeah.
100%. There was a big moment when I worked in the computer store in, like, high school, where Apple switched from Sims to dims.
And it was like all the talk of Macworld magazine in like 1998. That's why I remember. This is just PTSD.
You were pretty cool in high school. I was the shit.
All right. At the end of the second round, our scores are, Sean.
Sean, three, Nilai, four, David, two.
Nilai, with the easiest three points anyone's ever gotten.
I would have gotten dim.
You would have, that's fair.
All right.
All right, this is the last round.
Sean, C-T-U.
Not a RAM thing.
That is correct.
That is the counter-terrorist unit from TV is 24.
All right, Nilai.
E-C-C.
That is RAM.
That is?
Error correction circuit.
So close.
Error correcting code.
I knew it was the first two ones.
That was good.
This allows RAM to catch errors and is generally used for mission critical systems
and not in consumer PCs.
All right, David, mathematically no way for you to win,
but let's find out what happens.
That's David's middle day.
It hurts.
A high bandwidth memory.
Hey.
Correct.
Thank you, Sean Hollister.
Thank you, Sam Altman, for your giant wavers.
We are playing the games first next time.
Next time we're playing the games first.
Explanation comes after.
Somehow, we end the game with Sean with four points,
David with five, and Nilai with six.
Congratulations.
Feels right.
Sean, clearly the least educated about RAM of this video.
I take it on the chin.
Okay.
Your next game is on screen now.
As we all know, RAM is the most valuable resource in the world right now.
It is Mad Max Times, but for RAM.
So, we are going to play a white elephant gift swap where the object is to end the game with the most RAM.
Here is how it will work.
I have nine secret gifts that are wrapped in verge wallpaper.
Each is a gadget containing an amount of RAM.
I will not reveal how much RAM until the game is over.
Before anyone writes in, I know that not all.
RAM is created equal, but for the purpose of this game, we only care about quantity of RAM and not quality of RAM.
So, DDR4 versus five, we're cool.
Exactly. It doesn't matter. It's all worth the same.
Because I heard we're phasing out DDR4. I don't know if you're taking that into account here.
I heard that, and I have not taken it into account.
All right, so on your turn, you will choose. This is like a white elephant, Yankee swap.
You will choose to either open a new gift, a random,
gift or you can steal a gift from another player.
If a gift gets stolen, the victim of the steal can then choose to either open a new gift
or steal a gift from another player.
Each gift can only be stolen one time per round.
And if a new gift is open, the round is over and we go to the next person to start the
next round.
Once everyone has three gifts, we will play one more round because the person who opens
the first gift has no choice during the next.
this game. In that round, your choice will either be to swap one of your gifts with somebody
else's gift or to end the game. Okay? Oh. All right. So, we will randomize our order to find out
who will open the first gift. What if I don't want RAM? What if I want the other stuff?
Well, that is up to you. But are you looking to win? In the one with my wife's family,
everybody wants the lot of tickets. That's the way it goes. All right, Nilai, you guys. You
get the first pick, so it's just one through nine, and that's all you get.
World of No Sevens. I'm going eight.
Eight. Gift eight is a books palma.
Perfect.
Congratulations, Neal.
Nailed it.
You, David.
Technically, that contains RAM.
It does contain RAM.
David, you could either steal that from Nilai or you can open a new gift.
This is maybe the one advantage I have over both of you, as I know off the top of my head how much RAM the books Palma has.
I'm going to open gift number four.
Gift number four.
You have a shiny new cyber truck.
I am less aware of the amount of RAM in that device.
We are talking about the amount of RAM in the CyberTrucks Entertainment System specifically.
So, Sean, you can either steal Neely's Books Palma, David's Cybertruck, or you can open a new gift, Sean.
I don't want to end with a cyber truck.
Also, verge wallpaper number seven is delightful, so I'm taking that one.
I love this purpley, reddish, blue wallpaper, and you got meta-rayband display.
Oh.
All right.
Neelai, you can steal any of the gifts that are out there or you can open a new gift.
This is our second go-round here, round four.
I like debating whether or not the Cybertruck has more ram than the boost poma.
It's a real toss-up.
Let's open number three.
All right, you're going to open gift number three.
No stealing so far.
That is a iPhone 13 Mini.
Rough.
Huh.
The favorite phone of many a Verge podcaster and listener.
Loved it.
So good.
Okay.
David, you can steal any of the gifts that have been opened or open a new gift.
So the dilemma here is did Travis pick a bunch of things that don't have much RAM?
Or have we just opened the things that don't have much RAM?
I was doing the same calculation.
I am going to make a potentially reckless decision, and I'm going to steal the books palm.
Yes.
All right.
Which I think it has a non-zero chance of having the most ram of anything on the board so far.
David stole the books palma from Nilai, which means Nilai.
You can now make a steal yourself or you can open a new gift.
I'm taking the cyber truck.
Straight swathing.
Eli steals the cyber truck from David.
David, it is your turn to either steal or open a new gift.
Give me number two.
All right, gift number two is.
Nilai, do you agree that the cyber truck either has one or a thousand gigs of RAM and like nothing in between?
Yeah.
My bet, I was doing the same calculation as you and I was like, I know that the boogs mama doesn't have a lot.
I'm going to roll the dice on the cyber truck.
Also, it is like only fitting that I end up with the giant wiper in the end.
Agreed.
The switch two, this is a good, this is a good get.
Yeah, I'm going to keep the switch too.
I feel good.
I'm psyched.
Are you going to keep the switch two, though?
I'm not sure if you are.
It is Sean's turn.
I am in fact taking the Nintendo Switch 2.
The Nintendo Switch 2 has been stolen.
What's the maximum number of steals?
Each item can be stolen once per round.
So, like, I can't take it back.
Right.
But I could, in theory, take the cyber truck.
I'm going to open number five.
Number five is the Humane AI pin.
This is so cruel and also the fact that I'm going to end up with the books,
Palma, and the Humane AI pin feels like I deserve this.
You totally do.
My 2025 suggests that I deserve it.
this. Wait, so if there's not a maximum number of steals, the end game here gets very complicated.
Yes. So, yeah, each round, each item can only be stolen one time in a round. But after that round,
things are open to be stolen again. But then there's a swap at the end. So we can...
There is a swap round at the end. Just to recap for the listeners, Neely has an iPhone 13 Mini and a
cyber truck. David has a Books Palma and a Humane AI pin. And regrets. And Sean has met a Rayban display
and Nintendo Switch 2, and it is Neely's turn.
Can I just pause, by the way, to say that so far we have accidentally kind of all three picked our personalities?
I was going to say, is the gold to wind up with the most fitting item?
It's just stuff we like?
All right.
The only correct move right now is to pick a new.
So I'm taking number six.
I think that's right.
Number six, the game theory is afoot.
A pixel 9A.
You did pick stuff with not enough right.
Yeah. One of these is going to have.
This game is going to be made or broken on like 16 megabytes of RAM.
I can see it coming.
There's going to be like a Mac studio at the end of this that just wins.
And none of the rest of it's going to matter.
Holding out for Framework desktop.
That's what I do have two tiny little phones.
It's adorable.
And a cyber truck.
I didn't say that was adorable.
His two cell phones in a cyber truck.
Yo.
That's our boy.
Red flags all over the place.
Have you heard of Bitcoin?
Give me the Switch 2.
All right, David has stolen the Switch 2 from Sean.
Sean, you can steal or open a new gift.
But I can't steal the Switch 2.
So, hmm.
Think I'm going with number 9.
Everyone loves it.
He's opening a new gift.
And the gift is a Galaxy Z Folds.
Seven.
How we're talking.
That feels like it has a lot of ramp.
I know exactly how much.
Sean, it is also your turn to start the ninth round.
There's one gift left.
I'm taking the switch two back.
All right.
Sean takes back the switch two.
I can't take it because I'm still in the same round, right?
Right, but you're going to get to go next.
Got it, I see.
All right, give me number one.
Let's do this.
All right.
David is opening number one and number one is an Apple Vision Pro.
What?
So poorly.
So.
Wait, okay, serious question.
For the two of you looking at this, do you have confidence about which one of these nine things has the most ram in it?
I'm going to, no.
I think it's a cyber truck.
So I think there's a chance it's the cyber truck.
I also think it's possible that I'm just dead wrong.
But okay, I have the vision.
Great.
I have a books,
Palma,
an AI pin
and a vision
This sucks.
Yeah.
I'm sorry,
dude.
This is how
No one wants to go
to your house.
I want to try out the Apple Vision Pro.
Yeah,
Travis,
you can come over.
Everybody else is
uninvited
in a holiday party.
His dead glowing eyes.
Inside it is a ram-starved headset.
All right,
this is the 10th and final round.
Nelai gets to start this round
because he went first.
first and didn't have a choice in the beginning.
On your turn, you can either
swap one of your gifts
with one of anybody else's gift
or just end the game.
So, Nilai,
it is your choice.
I'm going to swap the 13 mini
for the Switch 2. I feel good about that
decision. Okay, Nilai is
stealing the Switch 2 from Sean and giving
Sean the iPhone 13
mini. Sean,
it is now your turn. You can swap
or end the game.
You have meta rayband display, Galaxy Z Fold 7, and the iPhone 13 Mini.
I am going to take the Vision Pro for the 13 Mini.
Okay.
Giving David the 13 Mini.
Finally, David, has one useful device.
David, same choice.
Game's over.
End the game.
End by paying now.
You're not even going to, I would, there's at least one move on that board that I would make.
There's two, but I'm ending the game.
I'm dancing with the ones who brought me.
Let's do this.
Humane pin.
Guess what's going to happen when the humane pin turns out to have 32 gigs of frame.
Let's go.
David hates this game.
All right.
We are ending the game with Nilai having the Nintendo Switch 2, a cyber truck, and a pixel 9A.
Yeah.
Party.
David Books Palma.
He made AI pin iPhone 13 Mini.
Spoiler alert is going to lose the game.
and John
Better Raypan display,
Galaxy Z Fold 7,
and an Apple Vision Pro.
We all have a phone.
We all have a phone.
You can all call each other.
This is great.
Let's find out how much RAM.
Ring,
David, how's that humane pen?
It's okay, I'm looking at you on my laser projector.
David, how much RAM does the books Palma have?
I believe it's six gigs.
It is six.
Wow.
Humane AI pin has
I was going to guess four
I'm going to guess the 13
mini also has 6
4
for a total of 14
tough day for day
all right
Nilai
are going to go to you next
Nintendo Switch 2
does anyone know how much
my guess was 16
that was what so was in my head
it is 12
cyber truck
it's either zero or 1,000
per David
64
it has
16
8 gigabyte
It sucks so bad.
It has more inches of wiper than RAM.
Oh, brother.
And the Pixel 9A has eight gigabytes of RAM.
All right.
Neely's pink phone and his truck have the same amount of RAM.
All of those things are like influencer gadgets.
That's what I'm doing.
All right, Neely has vaulted into the lead with 28 gigs of RAM.
Sean, I've got a good feeling about this.
Your meta rayband display.
Does anyone know?
I don't.
Not even of the barest.
Ooh.
Rough start.
Big win for the AI pin, that one.
Galaxy Z Fold 7 has...
And this is the base Z Fold 7.
12 gigabytes of RAM.
All right.
Sean has 14.
Neely has 28.
The Apple Vision Pro has 16 gigabytes of RAM.
Yes.
Giving Sean the win with 30 gigs of RAM.
Wait, David.
You would have won if you had held on to two things.
I think you would have won, right?
Sean took the Vision Pro from me.
I wasn't given that option.
Yeah.
I got you.
Damn.
Well played, Sean.
I also really respect that you had both the most and the least.
You're a full spectrum RAM guy.
My bet was that Apple always starves everything for RAM unless you pay an additional $800.
So I was out in the Vision Pro.
Yeah, but it's $3,500.
I think we paid the additional.
$500.
Fair enough.
My assumption was that Samsung
overstuffed the phone with RAM.
Wait, can you buy a Z-fold 7 with additional RAM?
You can.
The highest end model, I believe, has 16.
That is ridiculous.
You should not be able to change the amount of RAM on your phone.
So I have a Palm Pilot here.
Anyone want to guess how much RAM is in here?
256 megabytes.
Oh, it's a SIM.
I have a stick.
It has two megabytes.
Two megabytes.
Incredible.
That's wonderful.
Back when a megabyte was the size of your thumb, those are the days.
All right, Travis, this was delightful.
Thank you.
Congratulations to Sean.
Congratulations to Eli.
I lost, you know, magnanimously as the host, just so everyone's very clear on that.
We need to take one more break, and then we're going to come back and we're getting it back into talking about the shipworse.
We'll be right back.
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Complex and unprecedented, the Spanish authorities are calling it.
Before the disembarko, asymptomatikas.
Passengers who'd been stuck aboard the Hanta or maybe Hanta virus-stricken Dutch cruise ship
disembarked in the Canary Islands this weekend,
prompting the highest stakes game of where are they now since maybe COVID.
Some of the evacuees, American and French, have since tested positive for the flight.
and yet public health officials seem remarkably calm.
We do have one individual who was taken to the biocontainment unit early, early this morning,
and we assessed that individual.
They are doing well.
Possibly because this is not the one to freak out over.
Today, Explain drops every weekday afternoon.
Buzzwords like progressive and affordability are thrown around all the time in politics.
But what do they actually mean?
For me, being a progressive means, at the first.
at least two things. One, being willing to unite lots and lots of people, all of the folks that are
getting screwed over against the powers that be that are making your life worse. And then second,
being progressive is essentially a hopeful enterprise that you think, I think, that the world can
be much better, that we don't have to settle for crumbs or settle for the status quo. And is there
a difference between what it means to the elected officials and what it means to the people?
So money is essentially the root of everything.
I don't care if you're gay.
I don't care if you have all that.
That's like secondary, third.
That's not a priority.
That's this week on America Actually.
Let's begin.
This week on Net Worth and Chill, we're diving into another edition of Am I the Asshole, Finance Edition.
And trust me, these money dilemmas will have you questioning everything.
I'm breaking down real stories from real people who are navigating financial situations
that range from mildly awkward to absolutely unhand.
And I'm giving you my unfiltered take on who's in the right and who needs a serious reality check.
Because let's be real, when it comes to mixing relationships and finances, someone's always asking if they're the asshole.
Learn how to set boundaries, protect your wealth, and avoid becoming the villain in your own financial story.
Listen wherever you get your podcasts or watch on YouTube.com slash you're rich BFF.
All right, we're back.
Neely is gone.
Sean is still here.
I rearranged during the break.
If you're watching, please clap.
And we have replaced Nealai with somebody much better.
Dylan Patel is here from Semi Analysis. Dylan, welcome. Thank you for having me.
Real quick. I assume, you know, most people, the brand penetration of semi-analysis is like right up there with like Coca-Cola and Walmart these days. But like what is semi-analysis? What do you do?
Yeah, so we're a firm that does AI infrastructure, research, consulting, etc. started five years ago as just a blog and me consulting on the side. Well, after I quit my job and it's just sort of blown up and up and up and now I have a very famous blog as well.
well as, you know, most, you know, companies, 50 people, you know, all up and down the stack,
having worked on, you know, equipment that makes chips all the way up to, like, worked at data
centers, worked on models and things like that. So we do a lot of consulting, research,
et cetera. Okay. So I want to start with a question that is sort of about the timing of
launching your company, but is also just about this market in general. What I'm wondering is,
like, is this just what the chip market is like? Did you pick just sort of the beginning of the
most bonkers time in chips history to start doing this? Or is this just how chips were?
I mean, absolutely today is the most exciting time ever, the ability for people to make the biggest
change ever, right? Like, I think it's the craziest time ever. But chips have absolutely just been bonkers
right now. Parts of it are like annoyingly slow and parts of it or not. But you have to think about
the market for, let's just take DRAM, right? Memory, prices are soaring. People freaking hate
DRAM right now, especially general public. But, you know, what's interesting is this market has
existed this way for years. And, you know, if I go back a decade when I was more of a foreign warrior
on like Reddit and stuff, right, every three to four years, people would be oscillating between
oh, memory is so cheap. I'm going to put way more memory than I need and people and then in my
PC or whatever and then oscillating to like, oh my God, memory prices are so high. They're colluding
against us. They hate the American public. They hate the public in general. I think, I think
semiconductors are a very tough business, right? Memory specifically went from like over 30 companies
on the leading edge to just three, right? And in a couple decades, right? Every boom and bust,
more companies go bankrupt, the barrier to entries. So high, despite the fact that there is an
oligopoly of sorts in many industries. In fact, most of the semiconductor industry is sort of leveled out
to like, hey, there's a player with like 70% share, there's a player with like 25% share,
and there's like this crappy company with 5% barely hanging on, right?
And obviously things are dynamic because it's technology, so shift, stuff does shift,
but at the end of the day, the barrier to entry is so high.
The dynamics of the market are so intense that people are just going bankrupt, left and right,
that it's just, it is a bonkers industry, and I've always thought it was bonkers.
You've had these booms and bust, you've had this cyclical nature of the industry and you get smaller
and fewer players, but it's never been like this before.
right? I've had, I've seen low memory prices and I've seen high memory prices, but I haven't seen
there are only three players and one of them is getting out of the consumer market. And the
consumers, it's not just that they can't buy it because it's high prices. It's that the supply
isn't even there because there's an entire new industry eating up all this DRAM. It's never
been like this before, right? I definitely agree. Like, you know, if we're just talking about
memory, we have seen prices spike about this fast before, you know, over the last six months.
it's like 50%, 75% increase in contract pricing.
Spot pricing has risen more.
But even then, right, like, I think we've seen this level of price increase.
The thing that's really going to break everyone's brain is the next six months,
it's also going to do that again, right?
It's going to double again, right, in price or something like that.
And that's what's going to really make people go crazy.
And I think the funny thing is, or not even funny, like, I think just like the sad thing is,
the reason we're in this position is because this is actually,
when we talk about the boom and bust of the memory industry,
2022, you know, PC boom, all this huge amounts of memory was being deployed
because everyone's just buying a new PC and, you know, the memory company has
a lot of capacity. And then all of a sudden, oh, wait a second,
everyone has a new PC. I keep my PC for seven years, right? Like, why do I need a new PC
as an enterprise or as a person, you know? And the PC market falls off like a cliff.
And these memory companies are now losing money every quarter, right? And so from 23,
24, 25, they were not adding new wafer production capacity, right? The only thing they were doing is as
AI came into vogue, they were converting the regular memory production to HBM, right? And so this has been
the longest uninterrupted period of no capacity expansion as well, right? So this boom and bust,
and then also it was the worst bust, right? One of the worst buses like sustained multiple years
of losses rather than just like, hey, a year or six months. Because the boom of PC and COVID,
was so large, right? So you kind of have this like, like, coalescing of like, oh my God, everyone is,
we just haven't added any capacity. So like, and then on the flip side, we have the craziest boom in
human history, right? Like, you know, I think AI infrastructure is undoubtedly like, you know,
the biggest boom in the chip industry on a dollar basis. There's one way to look about this where
we're looking at like these companies, there's so few of them and they can make these massive,
massive profits all of a sudden. But another way to look about this,
at this is a couple years ago, Micron was actually losing money. I don't mean like the revenue
was going down. I mean like it was in the red, right? It was actually losing money. Yeah,
for over a year too, right? It's not even like a little bit of time, right? They had to make,
they had to do layoffs. They like shut down factory lines, right? Like all of this sort of stuff, right?
Samsung, Hynix and Micron, all three of them had to do this, right? So the sort of like,
you know, I would say the more nuanced view is like, yes, they, you know, this is crazy and the prices
are soaring. At the same thing.
same time they kind of had no choice to, you know, like, you know, I was like, who would have
increased production after you just got out of the red, right? A year and a half ago, right?
Like, that's just silly. But even that. No one could have predicted this. So that, that is my
question, though, because even if it's possible that there's nothing we could have done about it,
even if it was inevitable, right, which I think you just made a solid case that it is.
Shouldn't we all have seen this coming? Shouldn't, like, all of those things that you just
described are like three-year-old trends now? And if they're not that hard,
at least in retrospect to put next to each other and be like,
oh, of course we were headed towards something totally disastrous here.
The thing about this industry is that it's very easy to be bullish,
but the most bullish person tends to go bankrupt, right?
And so that's the scary thing about this industry,
is if you overbuild the most, you end up going bankrupt,
and that's how we've gone from 30 to 3, right?
And so as far as has anyone seen this,
of course, I could show myself and say,
look, we told all of our clients,
we modeled all this production capacity,
capacity. We modeled all the AI production demands from a data center standpoint, from an
data center standpoint, flowed through how many wafers are required, blah, blah, blah, blah,
blah. Yeah, obviously we've been writing about like memory is going to go crazy for the last
year and a half roughly, right? But at the same time, it's like, you know, I'm not someone who
managed a company, you know, through the last 30 years where 37 competitors went bankrupt.
And the scars are there, right? The industry has these scars. So there's also that front of like,
is this a bubble? Well, I've seen 15 other bubbles and that's bankrupted all my competitors.
Why would I go crazy this time? Was there anybody, though, who is like predicting this?
Who's like the, you know, the guy who saw the subprime mortgage crisis coming. Was there anything like that here? Because I feel like what I'd heard was DDR4 prices are going to rise because, you know, it's the old standard. They're not going to be producing as much of that anymore. You know, let's get ready for DDR5. And then it felt like it was a surprise that DDR5.
was in this huge crunch that everybody at these data centers wanted so much of it. And even even the
companies that make their business on this, Dell, the CEO of Dell is telling us, you know,
hey, we need to, my focus now is to make sure we have supply as if his company hadn't inked deals
years ago to make sure that they have enough supply for their consumer products, for their
commercial products. Yeah, yeah. So at the end of the day, like the memory market is like kind of a
funny one in that like you can say ODDR4 pricing is going to go up because it's going out of
production. But the wafer production, on the wafer production level, right,
There is sort of like the differences between DDR 4, 5, HBM, there are some process differences,
but those process differences are not like, oh, it's a separate factory.
It is the same factory.
The time to change from one to the other is not that long, right?
You know, in the case of DDR 4 to 5, it is just a mask change, which can take hours.
Now, obviously, the production timeline to make memory waferes takes months, right?
But, you know, the timelines to change stuff is, like, quite quick.
what it is is that they just didn't add wafer capacity, right?
Now, whether that wafer capacity goes to DDR4, HBM, or DDR5,
there is some differences in sort of like what's the capabilities, right?
Samsung's not that great at HBM, but they're graded DDR5, right?
Like sort of like, you know, there's these sort of mixes and discontinuities in the market.
But the end of the day, you know, the market is pretty efficient and the margins for each don't differ that much, right?
For DDR4 versus 5 versus HBM.
So what's happened is just that, um,
Memory AI is a sort of inelastic buyer, right, if you will.
Invidia buys, you know, let's take Blackwell, right?
Blackwell GPU, 195 of memory, you know, that GPU,
that GPU invidia sells for over $30,000, right?
But at the same time, that GPU costs them like $6,000, $7,000 to make,
and of that memory is half the cost, right?
But if the memory cost goes up 20%, well, they're still selling this chip for $30,000 plus, right?
So, you know, if it goes from 6,000 to 8,000, you know, their elasticity there is not crazy.
You know, who the elasticity is crazy for is the PC buyer, the mobile phone buyer.
There, the phone costs, you know, or the laptop cost, whatever it is.
And if the price of memory doubles and it adds $100 to the cost of the device, then all of a sudden, you know, guess what?
I might not buy, you know, I might not, or it cost even more that, right?
Like, I might not, you know, that $1,000 laptop, you know, for a little bit, there were even
thousand dollar laptops with 32 gigs of ramp. And it was like glory, glorious. Now, now like you,
you know, it's kind of harder to find. And I bet next year it's going to be even tougher, right?
And so there's there's sort of that, that interaction in the market in that like, who is the
elastic buyer? And unfortunately, the consumer is the elastic buyer. You know, the production,
you know, AI infrastructure spends going from like, you know, you know, 10 billion to 100 billion to
a trillion, right? Like we are scaling like crazy. And if it gets to, you know, next year,
we look at, you know, the big top five hyperscalers,
they're going to spend our top six hyperscalers, right,
Google, Microsoft, Amazon, Oracle, Corweave,
a missing one, meta, right?
You're looking at $500 billion of spend across them, right?
On AI infrastructure.
Of that, their spend on Nvidia's is like $300 billion.
And of Nvidia's $300 billion that spend on memory,
you know, after their margins, you know,
the Nvidia's largest supplier is S.K. Heinix, a memory vendor.
It's not TSM, right?
So you flow through and it's like, okay, actually next year, the gross, the total volume that AI is consuming is ridiculous. And as far as like, hey, did anyone see this coming? There are a lot of people who are speculatively buying and things like that because the dynamics of the market are clear. Right. So if you look at like there's, I don't remember which PC maker it was, whether it was Dell or Lenovo or HPE, but one of them actually was super smartly about two quarters ago secured a bunch of DRAM ahead of time. And their stock at like there was a call on the earnings call where there was.
investors were like, why did you enter all these long-term supply agreements?
Like, you know, you shouldn't do that.
You should be just in time inventory, right?
Like they were kind of like criticizing them like the Wall Street person.
And then now they're looking pretty smart because they secured memory at a lower price,
longer term, right?
But at the end of the day, right, like not all of the memory is, the other aspect of this
is like this area for AI, the HBM, right?
That manufacturing process is a little bit more complicated.
The suppliers are even fewer, right?
Samsung's not so good at it.
So, Nvidia locked in their supply for HBM totally next to.
But this funniest thing is because S.K. Heinex is the best, and because they have the best
HBM, and Nvidia decided I'm going to sign a big contract with you at good margin,
all of a sudden, SK.K. Heinex is going to be the least profitable of the big three memory
because they don't get to sell all their memory at the super inflated price set because the market
is going crazy. So we've laid a lot of the blame for a lot of this kind of at the feet of AI
data centers. But I think for people who don't follow this stuff all the time,
these just seem like large buildings full of computers. And I think it's hard to like put into real
terms, how big a project this actually is. Can you give us a sense of the scale of the build
out of the AI data center right now? If we go back just a couple years ago, there were four or
five thousand data centers in the world, but none of them were like, you know, super, super big,
right? Like the biggest data center in the world three years ago is laughably small compared
to what's being built now, right? You know, the largest data center building in the world was,
you know, maybe, you know, 50 megawatts, 75 megawatts, et cetera, in that range.
Google was building one that was like 100 megawatts.
I was like, whoa.
Now when you look at like the size of like some of these campuses, right, it's like,
oh, Stargate in Abilene, Texas is two gigawatts.
And actually that one is kind of small relative to some of the stuff that's going up,
which is five plus gigawatts, right?
You know, Metas talked about like their Louisiana stuff.
The, the concentration of like value within a data center is absolutely absurd, right?
You think about it again, right?
this area of Manhattan, it's five gigawatts.
Five gigawatts, you know, once Meta builds this entire, like, Louisiana facility out,
five gigawatts size of Manhattan, it ends up being the entire cost that they put into it was on the order of roughly $250 billion, right?
$250 billion for one site in Louisiana that they're building over, you know, a couple of years,
which, by the way, those GPUs are not going to be, you know, bleeding edge in five years, right?
They're going to be, you know, they'll still be, they'll still be maybe useful in five years.
years, but definitely in seven or eight years, they won't be useful. It's just an insane factoid,
because when you think about it, it's like, you know, like, 250, you know, it's hard for humans
to understand what 250 billion even means, right? That's more money than the richest person in the
world has, but again, like, we can't fathom what the richest person in the world even has.
So it's just like, there's no way to contextualize this. If that's where we're headed,
a different market would suggest that the next thing that's going to happen,
is we're going to get a million chip startups who are going to come and try to make all of this stuff.
And they're in the like, your margin is my opportunity, right?
That's, that's, that's, that's this moment that we're in.
And every, every academic, everybody who's interested in chips, you should quit your job and go start a chip company.
Like, this is, this is the gold rush.
And we should be getting an entire new generation of folks coming out and saying there's only three companies doing this.
Let's get it back to 30.
Let's get just 300.
And there's going to be demand for this going forward.
Is that happening? Are we headed down that road? And if not, why not?
So there's two sort of layers in this stack, right? There is the design companies and they're the manufacturing companies. As far as the design companies, there are some startups. Many of them are going to fail. Maybe some of them will be successful. But that's true of all startups, right? This is not necessarily a wildly different kind of thing to try and do. Yeah. But in terms of design, like the barrier to entry is there, but it's not insurmountable. But it is a high barrier to entry, right?
you have to design your chip and then tape it out at TSM and all this cost you know 50 million plus dollars
and if there's any issue you got to do it again right so there is a barrier to entry there
that barrier entry is really low compared to manufacturing right we are not going to get many new
memory companies there is one new memory company but that's because it's like a national
level like priority from China called CXMT but they're like they have national government backing
we're not you know we're not going to get a new memory company in the west
we just aren't right
or or in like Taiwan or Japan or Singapore
or anywhere else right in the West like
you know there's just not going to be a new memory company
because the physical like construction of a fab
is tens of billions of dollars right
plus all of this know-how that is super trade secreted
and super like confidential
and it's built upon a year after year after a year
of tens of thousands of people's R&D
who are all super super smart like PhD
level, you know, engineers and researchers just building and building and building,
and it's incrementally building on top of each other, right? For context, right, building a chip,
right, you know, like a leading edge chip, whether it's memory or, you know, say, a phone chip,
phone CPU or phone memory, right, or laptop memory or laptop chip, that takes over 5,000
process steps, right? Where you take a perfectly, you know, you take a silicon wafer,
it's a perfect crystal and structure, then you bombard it with ions, you put, you deposit materials,
You, you, you, you, you, you, deions is for do lithography to define where things are and you build this chip layer by layer by layer by layer by layer and any defects ruin the chip.
So then the other thing that might happen, it seems to me, is like the other thing you would hope for at the end of this is this is where we get the next breakthrough, right?
And you've written about this. I found a blog post you read a couple of years ago basically saying we're sort of at the end of DRAM anyway, that it can't scale the way that it used to, that other parts.
Parts of the process are kind of leaving its abilities behind,
and that maybe what we need is something beyond DRAM.
And again, we have perfect market conditions for somebody to show up and say,
actually, I've found something that I can make cheaper or I can make with a different set of materials
that is less reliant on one multimillion dollar machine from a Dutch company that has to fly in on a Boeing 737.
Is that happening?
Like, is there a science breakthrough here somewhere?
It takes multiple planes, not just that.
You're right.
It's multiple 737.
So if we can just get it down to one 737,
so we will have done something.
Is there any inclination of that on the horizon here?
Yeah.
So the interesting thing is like when you look at, you know,
I'll zoom out to just like generally semiconductors,
they sort of had Morris Law, right?
And Moore's Law was actually originally about DRAM,
but people just sort of prescribed it to logic as well.
Is that true?
I didn't actually know that.
Yeah, Gordon Moore was talking about DRAM.
That's what Intel made at the time.
They actually lost it.
They were one of the companies.
They didn't go bankrupt.
They pivoted to processors.
But they had to leave the DRAM market because they were getting, you know, the market was too tough.
Anyways, you know, the number of transistors doubling, you know, every two years, again, like, you know, in an area like butchering the definition, but whatever, happened for decades, right?
And Moore's Law was made before, you know, Intel's 80, 86, right?
Like the initial coining of it, right?
It was actually when they were making only DRAM.
It happened for decades, decades, decades, and cost kept going down.
As far as the general DRAM vendors, they do have a roadmap to continue to go 10, 15% cost reductions a year for another decade.
They have some innovations that they want to do over the next five years, next seven years, about changing the structure of DRM and such.
But the next big one is sort of 3D DRAM.
So interestingly enough, NAND Flash already went through this.
The cost reductions asymptoted out.
The physics just didn't let you shrink it smaller and smaller.
So NAND ended up having this big revolutionary update where instead of doing planer NAND, they did 3D Dan.
And so they can make many layers at once, right?
And that ended up resuming the cost scaling curves for NAN.
And that's why SSD prices have fallen so much over the last decade.
And even the last five years, yes, market dislocation right now, but generally prices have fallen a lot, whereas DRAM has not really fallen much.
And so if they can figure this out, that's what the DRM vendors are all in on, right?
But that means that they're sort of they're all in on, but so is their supply chain, right?
Applied materials, you know, lamb research, you know, ASML, all these companies that are in the equipment supply chain,
all of their R&D effort is also focused for memory on helping these companies figure out 3D RAM because that's what they need next to keep scaling and keep the market growing and keep the industry moving forward.
You mentioned China. You mentioned China earlier that there is the state backing there for one company in particular to start making a dent.
Well, the big companies, you know, S.K. Hynix and Samsung and Micron, they're making a lot of this stuff in China, too, right? What keeps China from taking over?
So as far as what they're making in China, the vast majority of SK. Hanek's and Samsung's capacity is in Korea, right? The vast majority of Micron's capacity is in Singapore and Japan, Taiwan, and the U.S., right? Micron has no capacity in China. Hynex and Samsung have some, but that's the same.
that's old capacity and they actually haven't upgraded it in a long time.
With that said,
you know,
what prevents China from learning is like,
I mean,
it's just a ton of hard engineering,
right?
You know,
there's a bit of like,
oh,
people who worked at these companies coming back and being hired.
There's all this sort of like claims of like IPTAF,
blah, blah,
but at the end of the day,
it's like,
look,
there's a ton of engineers
who are working really hard
and they have effectively unlimited money, right?
And even then China still has not been able to,
you know,
in 2015,
they released a five-year play,
which was what their targets for semiconductor production in 2020 and 2025 were,
and they did it again in 2020, right?
And they've missed every time despite the fact that they've poured hundreds of billions of dollars.
Now, that's not to say they didn't make progress and that they're not going to get there.
They will.
I do truly believe it because Chinese engineers are really good, right?
It just takes a really long time.
Now, I don't think this is something a venture-backed business can just do, right?
You know, that amount of money is really nation-state level stuff, right?
the challenge. And as far as like China, like, you know, the next breakthrough away from DRAM entirely
could come from China as well, right? There's no reason why it wouldn't. It's always easier to leapfrog
than it is to sort of like incrementally catch up. Is this the moment though? Because with the
export controls and Trump playing the games around, you know, who can and who can't get Nvidia
GPUs and the national security concerns in the United States about do we want to let China
have all the GPUs, is now the moment that the nation state.
changes its tune and says, we're going to, we're going to 10x that, you know, investment in these
companies to make it, to make it happen. Do you see that China becoming a global power in,
in logic and in memory, the way that we already know it's a global power in all the other ways?
Yes, I think, I think that's absolutely going to happen one day, right? China is going to catch up.
I want to just go back to the thing you alluded to at the very beginning, which is my last question for you
was going to be, when does this get better?
And when does my computer get cheaper again?
And I think the answer is, A, maybe it doesn't.
And B, it's certainly not happening anytime soon.
Is that right?
Basically about last year, this last year,
Hynakes, Micron, Samsung,
they've decided to start investing in building new fabs again, right?
Instead of just upgrading old fabs, keeping the old fabs going,
you know, changing the process, blah, blah, blah,
they've decided to build new fabs.
It takes two-ish years.
or three years, depending on, like, the time scale of the construction progress.
So in 2027, we will have new wafer capacity coming online.
And you're literally just talking about, like, the time it takes to build a building, right?
Like, it's not, there's not some, like, magic they have to do to set up these new fabs.
It's just literally, like, they have to go do large-scale construction.
It's large-scale construction in the cleanest environment humans have, which is a clean room
where there's less than a particle, you know, a million, you know, like the million particles per square meter or whatever is,
is like absurdly low, right?
You know, to the point where, like, human, like, skin flakes are the most dirty thing in the, like,
you know, like, fab, right?
And that's how you wear the bunny suit.
There's all the complex chemistry, right?
They have, like, all these surfuric acid and hydrochloric acids and they have all these different
chemicals, like photorisms.
There's thousands of chemicals used, right?
There's these tools that range all the way from these, like, $200, $300, $500 million
tools that get flown in on multiple seven or seven.
The human logistics required to build these fabs is absurd.
And so, yeah, it takes a couple years.
And then setting up the fab, making sure it's clean, running the process, etc.
Best case, prices get cheap again in 2027 or continue to fall again in 2027.
Okay.
But it depends on what happens with AI.
Because as I mentioned, everyone who's building these fabs is super conservative, right?
Right.
There are these 55-year-old men who have seen many busts.
And if you take what are predictions for AI supply chain demand or, you know, anyone else who's sort of like super in tune with this,
what we think, you know, the number of GPUs, the types, the memory, all the volumes required,
actually prices will get worse than 27 too. But that's if AI doesn't pop as a bubble, right?
Now, I'm a maxi. I don't believe it'll pop. I think there's trillions of dollars of economic value
that will be delivered through AI over the next few years. You know, that's me. But if you do believe
AI bubble will pop, then 27 will have cheaper prices. If you think AI, you know, just continues
to go, woo, then we're screwed and actually memory.
we will never be cheap again and we might as well
stop using our computers.
It is truly wild that you actually
have to make your computer buying decision
in 2026 based on
macroeconomic and giant geopolitical
headwinds. This is where we are in the world.
Should I buy a Dell
XPS 13 is actually a question about like
the state of the economy in the world.
This is why we do an hour on RAM, friends.
This is what we're doing here. All right, Dylan, Sean,
Thank you so much. This has been delightful. I appreciate you both doing this. Thank you so much.
All right. That is it for the show. Thank you to Nilai and Sean and Dylan for being here. And thank you, as always, for watching and listening. This is actually our last vergecast of the year. We're all going to disappear into the holidays for a couple of weeks. And we will be back in the beginning of January for CES. We're going to do an episode kind of right as all the news is happening. And then we're doing a live episode on Wednesday, January 7th in Vegas at the Brooklyn Bowl. So mark it on your calendar.
It's going to be in the afternoon.
Come hang out.
Come Vergecast.
We're all going to go bowling.
I've never been bowling with Nil.
And I have this sneaking suspicion that he's either very good or like hilariously terrible.
And I'm very excited to find out which one of it is.
So come bowl with us.
Watch the Vergecast.
It's going to be very fun.
Also, in the meantime, there's a bunch of decoder for you to catch up on.
We have a couple more version history episodes coming out this season.
We've got TiVo left to do.
We've got the Nintendo Power Glove left to do.
We've got Flappy Bird left to do.
They're all very fun episodes.
They're all coming out the next episode.
few weeks, make sure you go to subscribe to all those shows and subscribe to The Verge if you want
to get them all at free. Until then, we're getting out of here. The Vergecast is a Verge production
and part of the Vox Media Podcast Network. This show is produced by Eric Gomez, Brandon Kiefer,
and Travis Larchuk. I hope you have a wonderful holiday. We will see you very soon. Rock and